Your search keyword '"Chamfer"' showing total 32 results

1. 同心驱水力振荡器阀盘优化设计.

Author

雷中清, \刘 欣, 黄叶海, 于 琛, 李 涵, 郭鹏高, and 施 雷

Abstract

Copyright of China Petroleum Machinery is the property of China Petroleum Machinery Editorial Department and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

2. Automated process planning system considering machining feature recognition suitable for end-milling using CAD models in STL format

Author

Takayuki HIRAYAMA, Hidenori NAKATSUJI, and Isamu NISHIDA

Subjects

computer aided manufacturing (cam), standard triangulated language (stl) format, chamfer, filet, free-form surface, end milling, Engineering machinery, tools, and implements, TA213-215, Mechanical engineering and machinery, TJ1-1570

Abstract

This study proposes a method to automatically generate numerical control (NC) programs from 3D computer-aided design (CAD) models in STL (Standard Triangulated Language) format. In STL format CAD of models, the three-dimensional shape is represented as a collection of triangular meshes. This format has the advantage of eliminating the need for concern about compatibility issues with data formats of 3D CAD models. On the other hand, there is a challenge in obtaining machining features that represent the characteristics of the three-dimensional shape for extracting the machining removal region. The previous study proposed a method to extract the machining region and obtain geometrical features such as boss or pocket shapes from only a 3D CAD model in STL format. However, that method was limited to product shapes represented only by independent boss shapes or pocket shapes. Those forms could be machined only by contour line machining, also called 2.5-axis machining. For general product shapes, it is necessary to recognize chamfers or filet shapes and free-form surfaces. Furthermore, the ideal machining process should be based on not only the desired shape, but also the extracted machining features to shorten the machining time as much as possible. Therefore, this study proposes a method to extract machining features such as chamfers, filets or free-form surfaces and to calculate the tool path necessary for machining. This study also proposed a method to extract pocket or slot machining features from multiple boss shapes for efficient machining. The machining experiments were conducted to validate the effectiveness of the proposed method. The results demonstrate that the tool path automatically generated using the proposed method from a 3D CAD model in STL format can be machined without any trouble and with the accuracy needed for practical use.

Published

2024

3. A Study of Evaluation of Finish Line of Die in Fixed Prosthodontic Laboratory

Author

Md Alamgir Kabir, Mohammed Mahbub Zaki, Jannatul Ferdous, Atique Mahmud, Alimul Rajii, Md Masudur Rahman, and Md Mahbubur Rahman

Subjects

Finish Line, Subgingival, Supragingival, Equigingival, Chamfer, Shoulder, Medicine (General), R5-920, Dentistry, RK1-715

Abstract

Background: The purpose of a fixed prosthodontic treatment may vary from the restoration of a single tooth to the complete rehabilitation of full occlusion. Finish line design is important in any tooth preparation, as finish line ensures the success of the future prosthesis. Finish line affects not only retention but also stability of fixed prosthesis. The finish line must be distinct, uniform, and smooth. Finish line is important during tooth preparation for acceptable marginal adaptation. The finish line must be easy to prepare, it must be easy to duplicate in impression, conservative, and provide sufficient strength to restore material. Finish line design helps in measuring the surface detail recording ability of an impression material. Various tooth preparation designs have distinct finish lines. Objectives: To evaluate the finish line of the die in a fixed prosthodontic laboratory. Materials and Methods: This laboratory based descriptive, cross-sectional, observational study has been conducted in the department of prosthodontics, BSMMU, with a sample size of 125 working casts die having different finish lines. The purpose of this study was to observe the finish line of the die of the working cast by using a dental magnifying loop. Data was collected on the basis of type, location, and quality of the finish line and recorded on a predesign data collection sheet. Collected data were analyzed by using the chi-square test. A P-value

Published

2024

4. Marginal adaptation of different monolithic zirconia crowns with horizontal and vertical finish lines: A comparative in vitro study

Author

Mohammed Qasim Nasir and Alaa Jawad kadhim

Subjects

chamfer, marginal gap, monolithic, vertical, zirconia, Dentistry, RK1-715

Abstract

Background. This study evaluated the influence of different tooth preparation techniques and zirconia materials on marginal adaptation. Methods. Forty-eight healthy human maxillary first premolars were divided into two primary groups based on preparation design: group A (chamfer) and group B (vertical). Within each main group, there were three subgroups, comprising eight teeth each, distinguished by the type of zirconia material employed (Zircad LT, MT, and Prime by Ivoclar Vivadent). All the samples were prepared by the same operator using a dental surveyor. Intraoral scanning was performed on the prepared teeth. SironaInLab CAD 20.0 software was used to design crowns, which were subsequently generated using a 5-axis milling machine. The crowns were cemented to their respective teeth with self-adhesive resin cement. Marginal gap measurements were taken in micrometers (μm) before and after cementation at 16 sites per sample using a digital microscope at×230 magnification. The collected data were evaluated using statistical analysis using the independent t-test, paired t-test, and ANOVA at an 0.05 significance level. Results. The vertical preparation group exhibited the smallest marginal gap, while the chamfer group displayed the largest. This disparity was statistically significant (P

Published

2023

5. Analysis of the impact of various finish line designs and occlusal morphologies on the accuracy of digital impressions

Author

Aylin Gunel, Mustafa Baris Guncu, Sema Merve Uzel, Guliz Aktas, Hale Arikan, Natalia Reiss, and Ilser Turkyilmaz

Subjects

Chamfer, Crown, Digital dentistry, Digital impression, Finish line, Intraoral scanner, Dentistry, RK1-715

Abstract

Background/purpose: Recent advancements in dental technology has led clinicians to convert from traditional methods to digital workflows. The purpose of this study was to analyze the effect of various finish line designs and occlusal morphologies on the accuracy of digital impressions. Materials and methods: Six maxillary molar crown preparations were designed by using a digital sculpting software program. The samples differed in finish line design and occlusal surface morphology. Three different finish line designs (shoulder, chamfer, and shoulder with internal round angle) and two different occlusal morphologies (sharp and rounded) were used, giving six groups. Using three different intraoral scanners, each group was scanned and compared with a reference scan obtained from an industrial scanner. The accuracy of each scan was studied, and the data were statistically analyzed. Results: A total of 180 scans were acquired by utilizing three different intraoral scanners. The reference scan was compared with the scans from each group and overall differences (marginal, axial, and occlusal) were assessed. A crown preparation with a chamfer finish line showed the lowest marginal discrepancy of 13.2 ± 4.18 μm while preparation with a shoulder finish line reported the highest discrepancy of 34.8 ± 7.9 μm (P

Published

2023

6. Influence of Interference Fit and Temperature on High-Speed Permanent Magnet Motor.

Author

Zeng, Yiming, Yang, Shanju, Yang, Xinyi, Wang, Qi, Zhang, Lijun, Hao, Jie, and Hua, Wencan

Subjects

PERMANENT magnet motors, CENTRIFUGAL compressors, PERMANENT magnets, FINITE element method, STRUCTURAL reliability, AIR compressors, MAGNETS

Abstract

A high-speed permanent magnet motor is the core driving component of a centrifugal air compressor. The power of the centrifugal air compressor is output by the motor. Its safety and reliability are embodied in the stability of the rotor structure, which greatly affects the stability and working efficiency of the centrifugal air compressor. Much research has focused on the material strength, structural characteristics, and fit clearance of a high-speed rotor, whereas few research articles have focused on the influence of interference fit of high-speed and ultra-high-speed permanent magnet motors, and there is also little research on the thermal failure caused by temperature in high-speed motors. In this paper, the influence of the interference fit and temperature of the high-speed permanent magnet motor is studied. Using finite element analysis conducted by Ansys to obtain simulation data, the influencing factors of the strength of the interference are analyzed comprehensively in the centrifugal compressor rotor system. The interference value and rotational speed range are determined via numerical calculation. Under the condition of minimum interference, when the calculated speed reaches 137,628.82 rpm, the structure of the rotor is loose and fails, which is a mechanical failure caused by the relative sliding of the magnet and the sheath. The calculated speed value differs from the simulation result by about 1.2%. The simulation results show that the maximum stress of the structure can be reduced from 1186.1 MPa to 308.42 MPa by adding chamfer to the end covers in interference fit structure. The effects of interference value, rotational speed, temperature, and sheath thickness on the structure are also analyzed. From the perspective of temperature on structural reliability, the failure temperature of the structure decreases when the interference value increases. The lowest failure temperature is 182.3 °C when the interference value is 70 μm. After that, the interference value increases and the failure temperature increases. The reason for this is the interaction between radial stress and contact stress. These results are caused by the interaction between interference fit and temperature, which should be paid attention to when the structure of a high-speed permanent magnet motor is designed. [ABSTRACT FROM AUTHOR]

Published

2023

7. Marginal adaptation of different monolithic zirconia crowns with horizontal and vertical finish lines: A comparative in vitro study.

Author

Nasir, Mohammed Qasim and kadhim, Alaa Jawad

Subjects

DENTAL crowns, IN vitro studies, COMPUTER-aided design software, MILLING-machines, COMPARATIVE studies

Abstract

Background.: This study evaluated the influence of different tooth preparation techniques and zirconia materials on marginal adaptation. Methods.: Forty-eight healthy human maxillary first premolars were divided into two primary groups based on preparation design: group A (chamfer) and group B (vertical). Within each main group, there were three subgroups, comprising eight teeth each, distinguished by the type of zirconia material employed (Zircad LT, MT, and Prime by Ivoclar Vivadent). All the samples were prepared by the same operator using a dental surveyor. Intraoral scanning was performed on the prepared teeth. SironaInLab CAD 20.0 software was used to design crowns, which were subsequently generated using a 5-axis milling machine. The crowns were cemented to their respective teeth with self-adhesive resin cement. Marginal gap measurements were taken in micrometers (μm) before and after cementation at 16 sites per sample using a digital microscope at×230 magnification. The collected data were evaluated using statistical analysis using the independent t-test, paired t-test, and ANOVA at an 0.05 significance level. Results.: The vertical preparation group exhibited the smallest marginal gap, while the chamfer group displayed the largest. This disparity was statistically significant (P <0.05)> Conclusion.: The vertical preparation design illustrated significantly better marginal adaptation than the chamfer preparation design. Comparisons between materials showed comparable marginal gaps. The mean values of the marginal gaps in all groups increased significantly after cementation. [ABSTRACT FROM AUTHOR]

Published

2023

8. Evaluation Of Patient Satisfaction Of Bruxzir Zirconia Complete Coverage Crowns With Feather Edge Versus Deep Chamfer Margin Design. (Randomised Controlled Trial).

Author

El Basha, Sara Hussein, Elnaggar, Gihan Abdelhady, and Youssef Hassanien, Eman Ezzat

Subjects

*PATIENT satisfaction, *CHI-squared test, *FEATHERS, *DENTAL crowns, *ZIRCONIUM oxide, *LIKERT scale, *DENTAL glass ionomer cements

Abstract

Background: patient satisfaction is one of the main concerns during the construction full coverage restoration. success of the crown depends on many aspects such as color, anatomic form, no pain or gingival inflammation, restoration integrity and finally retention of the restoration. Aim: To assess the effect of margin design (feather edge versus deep chamfer) of Bruxzir zirconia ceramic crowns on patient's satisfaction. Methodology: A total of twenty patients (age range 19- 50 years old) with premolar teeth requiring full coverage restorations, were randomly allocated into two groups (n= 10) according to the margin design tested; Group DC (control): deep chamfer and Group FE (intervention): feather edge. All crowns were constructed from monolithic Bruxzir zirconia. After crowns cementation, patient satisfaction was assessed using a customized questionnaire after 6 months & 1-year using Likert scale. The obtained data were tested for normality and expressed as frequency and percentages. Further Statistical analysis was performed using Chi square test. Results: Patient satisfaction was higher in FE group compared to DC group regarding pain and gingival health questions, with statistically insignificant difference between both groups (p<.0.05) after 6 months and 1 year follow up. Conclusions: Margin geometry (feather edge of deep chamfer) of all ceramic Bruxzir crowns achieved high level of patient satisfaction without affecting the patient satisfaction along one year follow up period. [ABSTRACT FROM AUTHOR]

Published

2023

9. Analysis of the impact of various finish line designs and occlusal morphologies on the accuracy of digital impressions.

Author

Gunel, Aylin, Guncu, Mustafa Baris, Uzel, Sema Merve, Aktas, Guliz, Arikan, Hale, Reiss, Natalia, and Turkyilmaz, Ilser

Subjects

DIGITAL music, DENTAL technology, MOLARS, SURFACE morphology, MORPHOLOGY

Abstract

Recent advancements in dental technology has led clinicians to convert from traditional methods to digital workflows. The purpose of this study was to analyze the effect of various finish line designs and occlusal morphologies on the accuracy of digital impressions. Six maxillary molar crown preparations were designed by using a digital sculpting software program. The samples differed in finish line design and occlusal surface morphology. Three different finish line designs (shoulder, chamfer, and shoulder with internal round angle) and two different occlusal morphologies (sharp and rounded) were used, giving six groups. Using three different intraoral scanners, each group was scanned and compared with a reference scan obtained from an industrial scanner. The accuracy of each scan was studied, and the data were statistically analyzed. A total of 180 scans were acquired by utilizing three different intraoral scanners. The reference scan was compared with the scans from each group and overall differences (marginal, axial, and occlusal) were assessed. A crown preparation with a chamfer finish line showed the lowest marginal discrepancy of 13.2 ± 4.18 μm while preparation with a shoulder finish line reported the highest discrepancy of 34.8 ± 7.9 μm (P < 0.05). Also, the occlusal discrepancies of the samples with rounded and sharp occlusal morphologies were 12.55 ± 3.09 μm and 19.13 ± 2.3 μm, respectively (P < 0.05). It has been suggested that chamfer finish line design and rounded occlusal anatomy may produce more accurate digital impression for single crown restorations. [ABSTRACT FROM AUTHOR]

Published

2023

10. Application of Task-Based Conceptual Design Method for Gear Chamfering Mechanisms

Author

Darbinyan, Hrayr V. and Radzevich, Stephen P., editor

Published

2022

11. A micro‐computed tomography analysis of internal and marginal fits of fixed partial dentures: Effect of preparation finish line designs on monolithic zirconia and heat‐pressed zirconia‐reinforced lithium disilicate.

Author

Elsherbini, Mohammed, Sakrana, Amal Abdelsamad, Amin, Rahma A, Diaa, Mohamed, Özcan, Mutlu, and Al‐Zordk, Walid

Subjects

BRIDGES (Dentistry), CUSPIDS, ZIRCONIUM oxide, DENTAL abutments, TOMOGRAPHY

Abstract

Purpose: To evaluate the effect of finish line design (chamfer and feather‐edge) and ceramic type on the internal and marginal fits of fixed partial dentures on abutment teeth. Materials and methods: Two typodont mandibular casts, missing right first premolar tooth, received tooth preparation on canine and second premolar abutments (one cast with chamfer finish line and the other cast with feather‐edge finish line). The preparation segment of each typodont model was scanned, 3D printed in resin, and then invested and casted in metal to obtain two metal models. Polyvinyl siloxane impressions were made for the metal models and poured in type IV stone. The stone models (n = 40) were randomly assigned into four groups (n = 10): chamfer finish line with heat‐pressed zirconia reinforced lithium disilicate fixed partial denture (CL), chamfer finish line with monolithic zirconia fixed partial denture (CZ), feather‐edge finish line with heat‐pressed zirconia‐reinforced lithium disilicate fixed partial denture (FL), and feather‐edge finish line with monolithic zirconia fixed partial denture (FZ). After the fabrication of ceramic restoration, micro‐computed tomography was used to evaluate the internal and marginal fits of each fixed partial denture. Data were statistically analyzed with three‐way ANOVA (α = 0.05). Results: There were no significant interactions between preparation type, material type, and tooth type at any of the areas assessed. There was significant difference (p = 0.01) between CZ (59.15 ± 4.6 µm) and FZ (73.6 ± 17.1 µm) groups at the finish line area. Regarding the horizontal marginal discrepancy area, there were significant differences between CZ (62.65 ± 10.5 µm) and FZ (90.05 ± 5.6 µm) groups (p < 0.001), CL (77.45 ± 8.1 µm) and CZ (62.65 ± 10.5 µm) groups (p < 0.001), and FZ (90.05 ± 5.6 µm) and CL (77.45 ± 8.1 µm) groups (p < 0.001). At finish line area, there was a significant difference (p = 0.018) between feather‐edge with canine (72.75 ± 13.3 µm) and chamfer with canine (59.05 ± 5.8 µm); however, there was no significant difference (p = 0.774) between feather‐edge with premolar (69.45 ± 12 µm) and chamfer with premolar (65.1 ± 7.4 µm). Moreover, there was no significant difference (p = 0.886) between feather‐edge with canine and feather‐edge with premolar. Conclusions: The internal and marginal fits of the ceramic fixed partial dentures can be affected by the finish line design and ceramic type. The feather‐edge finish line had a negative impact on the marginal and internal fits of ceramic fixed partial dentures at certain measurement points. Regarding the effect of finish line design on abutment teeth, the difference in fit was only detected at the finish line area of the anterior abutment (canine) with the feather‐edge finish line. [ABSTRACT FROM AUTHOR]

Published

2023

12. Heat dissipation analysis on the designed inner-outer circulation impingement double-layer microchannel heat sinks with chamfers in power electronic cooling system.

Author

Gao, Siya, Li, Peng, and Shen, Han

Abstract

This study discusses a new design which utilizes chamfers to further improve the thermal performance of inner-outer circulation impingement double-layer microchannel heat sinks by simulations and experiments manufactured with 3-Dimension printing. In contrast to former designed inner-outer circulation impingement double-layer microchannel heat sinks, inner-outer circulation impingement double-layer microchannel heat sinks with chamfer shows significant advantages in improving overall thermal performance in power electronic cooling. The results of simulation are in good agreement with those of experiment in five 3-Dimensional printing tests. It is demonstrated that the introduction of chamfers is effective in controlling the thermal gradient on substrate of heat sinks, and reducing the peak temperature on substrate of inner-outer circulation impingement double-layer microchannel heat sinks with chamfer as a result. The best performance is presented by a 0.2 mm chamfer located on the corner of the inner-outer circulation shaft in inner-outer circulation impingement double-layer microchannel heat sinks with chamfer. Experimental studies and numerical simulations both indicate that inner-outer circulation impingement double-layer microchannel heat sinks with a 2 mm chamfer significantly enhances heat transfer characteristics. In addition, the average Nusselt number for inner-outer circulation impingement double-layer microchannel heat sinks with a 2 mm chamfer is higher than that of other tests. Moreover, inner-outer circulation impingement double-layer microchannel heat sinks with a 2 mm chamfer performs better than other designs in terms of the overall heat transfer performance, which is significantly better than inner-outer circulation impingement double-layer microchannel heat sinks without chamfers. • The novel structure combined inner-outer circulating and chamfers is presented. • The shaft diameter of the chamfer can influence the overall thermal characteristics. • The shaft diameter of chamfers generates the change of thermal performance. • Shaft diameter equalling 0.3 mm indicates the best overall thermal characteristics. [ABSTRACT FROM AUTHOR]

Published

2024

13. Influence of Interference Fit and Temperature on High-Speed Permanent Magnet Motor

Author

Yiming Zeng, Shanju Yang, Xinyi Yang, Qi Wang, Lijun Zhang, Jie Hao, and Wencan Hua

Subjects

rotor strength, chamfer, finite element analysis, interference fit, stress, failure temperature, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

A high-speed permanent magnet motor is the core driving component of a centrifugal air compressor. The power of the centrifugal air compressor is output by the motor. Its safety and reliability are embodied in the stability of the rotor structure, which greatly affects the stability and working efficiency of the centrifugal air compressor. Much research has focused on the material strength, structural characteristics, and fit clearance of a high-speed rotor, whereas few research articles have focused on the influence of interference fit of high-speed and ultra-high-speed permanent magnet motors, and there is also little research on the thermal failure caused by temperature in high-speed motors. In this paper, the influence of the interference fit and temperature of the high-speed permanent magnet motor is studied. Using finite element analysis conducted by Ansys to obtain simulation data, the influencing factors of the strength of the interference are analyzed comprehensively in the centrifugal compressor rotor system. The interference value and rotational speed range are determined via numerical calculation. Under the condition of minimum interference, when the calculated speed reaches 137,628.82 rpm, the structure of the rotor is loose and fails, which is a mechanical failure caused by the relative sliding of the magnet and the sheath. The calculated speed value differs from the simulation result by about 1.2%. The simulation results show that the maximum stress of the structure can be reduced from 1186.1 MPa to 308.42 MPa by adding chamfer to the end covers in interference fit structure. The effects of interference value, rotational speed, temperature, and sheath thickness on the structure are also analyzed. From the perspective of temperature on structural reliability, the failure temperature of the structure decreases when the interference value increases. The lowest failure temperature is 182.3 °C when the interference value is 70 μm. After that, the interference value increases and the failure temperature increases. The reason for this is the interaction between radial stress and contact stress. These results are caused by the interaction between interference fit and temperature, which should be paid attention to when the structure of a high-speed permanent magnet motor is designed.

Published

2023

14. ANTALYA KALEİÇİ’NİN SİVİL VE DİNİ MİMARİ ÖRNEKLERİNDE GÖRÜLEN KÖŞE PAHLARI VE SÜSLEMELERİ.

Author

KILIÇ, Serkan

Subjects

URBAN transportation, NINETEENTH century, TWENTIETH century, ANCIENT civilization, MOSQUES, DECORATION & ornament

Abstract

Copyright of Journal of Art History / Sanat Tarihi Dergisi is the property of Ege University and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2022

15. Euclidean Distance Approximations From Replacement Product Graphs.

Author

Terlep, T. Arthur, Bell, Mark R., Talavage, Thomas M., and Smith, Douglas L.

Subjects

*IMAGE processing, *GRAPH theory, *CELLULAR automata, *COMPUTATIONAL complexity, *EIKONAL equation, *EUCLIDEAN distance

Abstract

We introduce a new chamfering paradigm, locally connecting pixels to produce path distances that approximate Euclidean space by building a small network (a replacement product) inside each pixel. These “ RE-grid graphs” maintain near-Euclidean polygonal distance contours even in noisy data sets, making them useful tools for approximation when exact numerical solutions are unobtainable or impractical. The RE-grid graph creates a modular global architecture with lower pixel-to-pixel valency and simplified topology at the cost of increased computational complexity due to its internal structure. We present an introduction to chamfering replacement products with a number of case study examples to demonstrate the potential of these graphs for path-finding in high frequency and low resolution image spaces which motivate further study. Possible future applications include morphology, watershed segmentation, halftoning, neural network design, anisotropic image processing, image skeletonization, dendritic shaping, and cellular automata. [ABSTRACT FROM AUTHOR]

Published

2022

16. AUTOLISP FUNCTION FOR DIMENSIONING CHAMFERS IN AUTOCAD.

Author

STROE, Iulius and IONIŢĂ, Elena

Subjects

SIGNS & symbols, SPEED, LANGUAGE & languages

Abstract

AutoCAD, one of the most popular drawing programs, has enriched over time the facilities offered in making drawings in terms of how to use different graphics, symbols, accuracy, speed, interface, etc. One aspect that gives it an advantage over other drawing programs is the ability to use the AutoLisp language in creating user's functions that can be used as commands in AutoCAD. In this article, the authors present a function made in AutoLisp, which, for the parts drawn in Autocad, facilitates the automatic dimensioning of the chamfers, in the usual format, considering the scale of the respective drawing or detail. [ABSTRACT FROM AUTHOR]

Published

2021

17. AUTOLISP FUNCTION FOR DIMENSIONING CHAMFERS IN AUTOCAD

Author

Iulius Stroe and Elena Ionita

Subjects

AutoCAD, AutoLisp, theoretical calculation, dimensioning, chamfer, Architectural engineering. Structural engineering of buildings, TH845-895, Engineering design, TA174

Abstract

AutoCAD, one of the most popular drawing programs, has enriched over time the facilities offered in making drawings in terms of how to use different graphics, symbols, accuracy, speed, interface, etc. One aspect that gives it an advantage over other drawing programs is the ability to use the AutoLisp language in creating user’s functions that can be used as commands in AutoCAD. In this article, the authors present a function made in AutoLisp, which, for the parts drawn in Autocad, facilitates the automatic dimensioning of the chamfers, in the usual format, considering the scale of the respective drawing or detail.

Published

2021

18. Augmentation of damping force by modifying the geometrical shape of the MR damper

Author

Ansari, Mohd Anis, Meher, Prabina Kumar, Bisoi, Alfa, and Biswas, Agnimitra

Published

2023

19. A Systematic Review of Cementation Techniques to Minimize Cement Excess in Cement-Retained Implant Restorations

Author

Rodolfo Reda, Alessio Zanza, Andrea Cicconetti, Shilpa Bhandi, Renzo Guarnieri, Luca Testarelli, and Dario Di Nardo

Subjects

cementation technique, cement excess, peri-implantitis, shoulder, chamfer, Biology (General), QH301-705.5

Abstract

Background: The most used types of retention of implant-supported prostheses are screw-retained or cement-retained restorations. The advantages and disadvantages of both have been identified by various authors over the years. However, cement-retained implant crowns and fixed partial dentures are among the most used types of restorations in implant prostheses, due to their aesthetic and clinical advantages. When cemented prostheses are made on implants, the problem of cement residues is important and often associated with biological implant pathologies. The objective of this research was to establish to what extent the techniques to reduce excess cement really affect the volume of cement residues. Materials and Methods: This review was written following the PRISMA statement; a detailed search was carried out in three different electronic databases—PubMed, Scopus, and Cochrane Library. The inclusion criteria were prospective clinical studies, with at least 10 participants per group, and with at least 6 months of the follow-up period. Results: There have been many proposals for techniques supposed to reduce the amount of excess cement in the peri-implant sulcus and on the prosthetic components, but of these, which are exceptional in their in vitro capabilities, very few have been clinically validated, and this represents the real limitation and a great lack of knowledge regarding this topic. Three articles met the inclusion criteria, which were analyzed and compared, to obtain the information necessary for the purposes of the systematic review. Discussion: Extraoral cementation can reduce the excess cement, which, after a normal excess removal procedure, is, nevertheless, of such size that it does not affect the possibility of peri-implant pathologies developing. All these studies concluded that a small amount of cement residue is found in the gingival sulcus, and using eugenol-free oxide cements, the residues were only deposited on the metal surfaces, with a better peri-implant tissues health. Conclusion: Despite the limitations of this study, it was possible to carefully analyze these characteristics and obtain valuable suggestions for daily clinical practice. Resinous cements are considered, due to the free monomers present in them, toxic for the soft tissues. The provisional zinc-oxide cements, also eugenol-free, represent the ideal choice. The different grades of retentive forces provided by these cements do not seem to have clinical effects on the decementation of restorations.

Published

2022

20. X-ray microtomographic evaluation of the absolute marginal fit of fixed prostheses made from soft Co-Cr and zirconia

Author

Elie E. Daou

Subjects

Chromium, Molar, Orthodontics, Chamfer, Typodont, Materials science, X-Rays, X-ray, Cobalt, X-Ray Microtomography, 030206 dentistry, Dental Marginal Adaptation, Mandibular first molar, Maxillary first premolar, 03 medical and health sciences, 0302 clinical medicine, medicine.anatomical_structure, Dental Prosthesis Design, Premolar, medicine, Computer-Aided Design, Denture, Partial, Fixed, Cubic zirconia, Zirconium, Oral Surgery

Abstract

The absolute marginal fit of CAD-CAM presintered fixed partial dentures has been poorly documented.The purpose of this in vitro study was to evaluate the marginal fit of presintered cobalt-chromium (Co-Cr) and zirconia 3-unit fixed partial dentures by using X-ray microcomputed tomography (μCT).A metal model was prepared from a typodont to receive fixed partial dentures (N=12). The maxillary first premolar and first molar were prepared with a circumferential 1.2-mm chamfer and 2-mm occlusal reduction. The dies were scanned and assigned to 1 of 2 groups to receive the prostheses made of presintered Co-Cr or presintered zirconia (n=6). Each framework was seated on its model without load application. The abutments were scanned by using μCT. A circle with 10 diameters, with a step of 18 degrees, was projected at the center of the obtained image. Absolute marginal discrepancy and marginal gap mean values were measured, and overextended and underextended margins determined. The data were analyzed by using the Levene t test and ANOVA (α=.05).No statistically significant difference was found in the marginal fit between the materials tested (P=.939). The mean values were 66 ±14 μm for Co-Cr and 61 ±12 μm for zirconia. The absolute marginal discrepancy mean value for the premolar was 69 ±12 μm and 41 ±9 μm for the molar (P.001). Overextension was predominant for both materials tested, with a higher percentage reported for the zirconia group.Presintered alloys presented clinically acceptable adaptation with a predominance of marginal overextensions.

Published

2022

21. Modelling of as bored surface of Inconel-625 alloy using unidirectional extrusion honing process

Author

K.N. Lingaraju, S.L.N. Jayasimha, and H.P. Raju

Subjects

Chamfer, Materials science, Abrasive, Honing, Process (computing), Surface roughness, Extrusion, Surface finish, Composite material, Inconel 625

Abstract

The current work explore the impact of process parameters such as number of passes and bore diameter of specimen on the interior surface quality of a pre machined component by extrusion honing process. The finishing process is highly flexible and unconventional that modifies the interior surfaces of miniature components involving complex profiles. This method is extensively employed to deburr, polish, finish, remove recast layers and chamfer the surfaces by the pressurized flow of semi viscous abrasive laden across the surface to be processed. The experimental study involves extrusion honing of Inconel-625 alloy. Also, efforts in developing a multiple regression expression on surface roughness parameter Ra as response with number of passes and bore dia as designed parameters of this finishing process. Experimental data is tabulated and analyzed by constructing L9 OA for the factors considered. The influencing process factor among the opted design parameter is assessed by analysis of variance (ANOVA). Multivariate regression analysis is performed to forecast the surface finish of the specimen within the operating range of the process, while also validated with test results. Finally, surface texture resulted by the extrusion honing process is evaluated by scanning electron microscope (SEM) analysis.

Published

2022

22. Experimental study of a portable plasma arc cutting system using hybrid RSM-nature inspired optimization technique

Author

Dilip Kumar Bagal, Soumya Ranjan Mangaraj, Surya Narayan Panda, Abhishek Barua, Nirmalya Parhi, and Siddharth Jeet

Subjects

010302 applied physics, Chamfer, Particle swarm optimization, Mechanical engineering, 02 engineering and technology, 021001 nanoscience & nanotechnology, 01 natural sciences, Plasma arc welding, Machining, 0103 physical sciences, Genetic algorithm, Simulated annealing, Surface roughness, Plasma cutting, 0210 nano-technology, Mathematics

Abstract

Using six distinct nature-inspired optimization strategies, the cutting constraints of plasma arc cutting (PAC) procedures for cutting stainless steel (AISI 304) were optimized in this work. Using plasma arc machining settings, response surface approach was utilized to examine the influence of cut quality. The material removal rate, chamfer, heat-affected zone, surface roughness, kerf width, and dross are the most significant output responses chosen for this investigation. The corresponding machining parameters examined in this analysis were the stand-off gap, gas pressure, cutting speed, and cutting current. Here, the evaluation based on the distance from the average solution (EDAS) approach is employed through the calculation of weights between criteria by pairwise comparison. Twenty-seven experiments were performed on AISI 304 stainless steel by RSM based Box-Behnken Design (BBD) in the design of the experiment. Here, the Genetic algorithm, Grey wolf optimization, Jaya optimization, Whale optimization, Particle Swarm optimization, and simulated annealing algorithm approaches as six different optimizations have been utilized to predict the optimal setting of the experiment. A comparative inspection of these nature-inspired algorithms in plasma cutting operations was performed in this study. Finally, the results were validated with a confirmation test.

Published

2022

23. ОСОБЛИВОСТІ МАГНІТНО-АБРАЗИВНОГО ОБРОБЛЕННЯ ТВЕРДОСПЛАВНОГО ІНСТРУМЕНТА З ЗАХИСНИМИ ФАСКАМИ НА РІЗАЛЬНИХ КРОМКАХ

Subjects

різальна кромка, фаска, твердосплавний різальний інструмент, magneto-abrasive machining, твердість, microgeometry, chamfer, carbide cutting tool, cutting edge, мікрогеометрія, hardness, магнітно-абразивне оброблення

Abstract

To ensure the durability and working ability of cutting tools, especially carbide, it is promising to form a rational microgeometry of working surfaces, in particular, the shape and geometry of cutting edges, as well as their hardening. For this, it is necessary to carry out additional machining of the tool after its sharpening operation. The magneto-abrasive machining method in conditions of large working gaps with a rational ratio of the impact and frictional interaction of the magneto-abrasive tool with the machined elements makes it possible to form microgeometry and strengthen both the cutting edges and the working surfaces. To ensure effective machining, it is necessary to determine the regularities of forming the microgeometry of the cutting edges with pre-made protective chamfers. The paper presents the results of a complex study of the magneto-abrasive machining process of carbide not sharpened inserts with protective chamfers on the cutting edges made at different angles. It was shown that the process of edge rounding is linearly related to the duration of magneto-abrasive machining. Moreover, the rate of increase in the size of the radius of cutting edges rounding with protective chamfers increases linearly with an increase in the angle of inclination of the chamfers, all other process conditions being equal. The physical description of the hardening mechanism of the surface layer of the working elements of the carbide cutting tool was proposed. It was shown that the hardening process is associated with the rational imposition of forces arising as a result of the frictional and impact interaction of the particles and the formations of the magneto-abrasive tool with the machined surfaces. It was found that the nature of the change in surface hardness obtained after magneto-abrasive machining on the protective chamfers has the wavy shape depending on the time of the process. The greatest increase in surface hardness takes place on chamfers made at angles of 10 ° and 20 ° and is explained by the value of the ratio between the forces of normal and tangential origin arising from the contact of the magneto-abrasive tool with the machined surfaces., Для забезпечення надійності і працездатності різального інструменту, особливо твердосплавного, перспективним є формування раціональної мікрогеометрії робочих поверхонь, особливо форми і геометрії різальних кромок, а також їх зміцнення. Для цього необхідно виконувати додаткове оброблення інструменту після операції його заточування. Метод магнітно-абразивного оброблення в умовах великих робочих зазорів при раціональному співвідношенні ударної та фрикційного взаємодії магнітно-абразивного інструменту з оброблюваними елементами дозволяє формувати мікрогеометрію і зміцнювати як різальні кромки, так і робочі поверхні. Для забезпечення ефективного оброблення необхідно встановити закономірності формування мікрогеометрії різальних кромок з попередньо виконаними захисними фасками. У роботі наведені результати комплексного дослідження процесу магнітно-абразивного оброблення твердосплавних непереточуваних пластин з виконаними під різними кутами захисними фасками на різальних кромках. Показано, що процес округлення кромок лінійно пов'язаний з тривалістю магнітно-абразивного оброблення. Причому, швидкість збільшення розмірів радіусів округлення різальних кромок з захисними фасками лінійно зростає зі збільшенням кута нахилу фасок при інших рівних умовах процесу. Запропоновано фізичний опис механізму зміцнення поверхневого шару робочих елементів твердосплавного різального інструменту. Показано, що процес зміцнення пов'язаний з раціональним накладенням сил, що виникають в результаті фрикційної та ударної взаємодії частинок і формувань магнітно-абразивного інструменту з оброблюваними поверхнями. Встановлено, що характер зміни поверхневої твердості, отриманої після магнітно-абразивного оброблення на захисних фасках, має хвилеподібну форму в залежності від часу процесу. Найбільший ріст поверхневої твердості має місце на фасках, виконаних під кутами 10° та 20° і пояснюється величиною співвідношення між силами нормального і тангенціального походження, що виникають при контакті магнітно-абразивного інструменту з оброблюваними поверхнями.

Published

2022

24. Evaluation of marginal and internal fit of lithium disilicate CAD-CAM crowns with different finish lines by using a micro-CT technique

Author

Matthieu Boone, Lennert Depla, Peter De Coster, Peter Bottenberg, Maria Rizonaki, Wolfgang Jacquet, Surgical clinical sciences, Localities, Ontologies, Commons, Integrated, Oral Health, Dentistry, Dental Clinic, and Conservative Dentistry and Prosthodontics

Subjects

Ceramics, Chamfer, Materials science, lithium disilicate CAD-CAM crowns, Dental Cements, CAD-CAM, Dental Materials, 03 medical and health sciences, 0302 clinical medicine, medicine, Lithium disilicate, Micro ct, Orthodontics, Typodont, Crowns, Dentistry(all), X-Ray Microtomography, 030206 dentistry, Finish line, Dental Marginal Adaptation, Microcomputed tomography, Dental Porcelain, Sagittal plane, medicine.anatomical_structure, Dental Prosthesis Design, micro-CT technique, Computer-Aided Design, Oral Surgery

Abstract

Statement of problem Whether the precision of fit of computer-aided design and computer-aided manufacturing (CAD-CAM) complete crowns is affected by the finish line configuration is unclear. Purpose The purpose of this in vitro study was to evaluate the marginal and internal fit of CAD-CAM ceramic crowns made from lithium disilicate based on 3 different finish lines (rounded shoulder, chamfer, feather-edge). Materials and methods Thirty anterior lithium disilicate complete crowns (n=10 per finish line group) were fabricated by following a completely digital workflow based on digital scans made with the TRIOS scanner. The crowns were adhesively cemented on duplicate dies of the respective prepared Typodont teeth, and the marginal gap, absolute marginal discrepancy, and internal gap were evaluated by using microcomputed tomography (μCT). A total of 66 values were obtained for each specimen from sagittal and transaxial sections, and a rendering software program was used to calculate the volume of the cement gap for each specimen by means of 3D region growing. Two-way ANOVA, Tukey post hoc tests with Bonferroni correction, and the Kruskal-Wallis test were used to compare the values between the experimental groups (α=.05). Results Marginal gap and absolute marginal discrepancy values were statistically significantly different between groups. In ascending order, marginal gap values were 23 ±14 μm for rounded shoulder, 54 ±28 μm for chamfer, and 96 ±36 μm for feather-edge finish lines. Absolute marginal discrepancy values were 96 ±34 μm for rounded shoulder, 124 ±37 μm for chamfer, and 157 ±34 μm for feather-edge finish lines. Internal gap values were 111 ±14 μm for feather-edge, 136 ±22 μm for chamfer, and 168 ±25 μm for rounded shoulder finish lines. The differences in cement volume between groups were not statistically significant (P=.200). Conclusions All 3 finish lines produced marginal gaps within the range of clinically accep table values. Lithium disilicate CAD crowns with a rounded shoulder finish line had the best marginal fit but the poorest internal fit, and lithium disilicate CAD crowns with a feather-edge finish line had the best internal fit but the poorest marginal fit.

Published

2022

25. Specific features of magneto-abrasive machining of carbide tools with protective chamfers on the cutting edges

Subjects

різальна кромка, фаска, твердосплавний різальний інструмент, magneto-abrasive machining, твердість, microgeometry, chamfer, carbide cutting tool, cutting edge, мікрогеометрія, hardness, магнітно-абразивне оброблення

Abstract

Для забезпечення надійності і працездатності різального інструменту, особливо твердосплавного, перспективним є формування раціональної мікрогеометрії робочих поверхонь, особливо форми і геометрії різальних кромок, а також їх зміцнення. Для цього необхідно виконувати додаткове оброблення інструменту після операції його заточування. Метод магнітно-абразивного оброблення в умовах великих робочих зазорів при раціональному співвідношенні ударної та фрикційної взаємодії магнітно-абразивного інструменту з оброблюваними елементами дозволяє формувати мікрогеометрію і зміцнювати як різальні кромки, так і робочі поверхні. Для забезпечення ефективного оброблення необхідно встановити закономірності формування мікрогеометрії різальних кромок з попередньо виконаними захисними фасками. У роботі наведені результати комплексного дослідження процесу магнітно-абразивного оброблення твердосплавних непереточуваних пластин з виконаними під різними кутами захисними фасками на різальних кромках. Показано, що процес округлення кромок лінійно пов'язаний з тривалістю магнітно-абразивного оброблення. Причому, швидкість збільшення розмірів радіусів округлення різальних кромок з захисними фасками лінійно зростає зі збільшенням кута нахилу фасок при інших рівних умовах процесу. Запропоновано фізичний опис механізму зміцнення поверхневого шару робочих елементів твердосплавного різального інструменту. Показано, що процес зміцнення пов'язаний з раціональним накладенням сил, що виникають в результаті фрикційної та ударної взаємодії частинок і формувань магнітно-абразивного інструменту з оброблюваними поверхнями. Встановлено, що характер зміни поверхневої твердості, отриманої після магнітно-абразивного оброблення на захисних фасках, має хвилеподібну форму в залежності від часу процесу. Найбільший ріст поверхневої твердості має місце на фасках, виконаних під кутами 10° та 20° і пояснюється величиною співвідношення між силами нормального і тангенціального походження, що виникають при контакті магнітно-абразивного інструменту з оброблюваними поверхнями. To ensure the durability and working ability of cutting tools, especially carbide, it is promising to form a rational microgeometry of working surfaces, in particular, the shape and geometry of cutting edges, as well as their hardening. For this, it is necessary to carry out additional machining of the tool after its sharpening operation. The magneto-abrasive machining method in conditions of large working gaps with a rational ratio of the impact and frictional interaction of the magneto-abrasive tool with the machined elements makes it possible to form microgeometry and strengthen both the cutting edges and the working surfaces. To ensure effective machining, it is necessary to determine the regularities of forming the microgeometry of the cutting edges with pre-made protective chamfers. The paper presents the results of a complex study of the magneto-abrasive machining process of carbide not sharpened inserts with protective chamfers on the cutting edges made at different angles. It was shown that the process of edge rounding is linearly related to the duration of magneto-abrasive machining. Moreover, the rate of increase in the size of the radius of cutting edges rounding with protective chamfers increases linearly with an increase in the angle of inclination of the chamfers, all other process conditions being equal. The physical description of the hardening mechanism of the surface layer of the working elements of the carbide cutting tool was proposed. It was shown that the hardening process is associated with the rational imposition of forces arising as a result of the frictional and impact interaction of the particles and the formations of the magneto-abrasive tool with the machined surfaces. It was found that the nature of the change in surface hardness obtained after magneto-abrasive machining on the protective chamfers has the wavy shape depending on the time of the process. The greatest increase in surface hardness takes place on chamfers made at angles of 10 ° and 20 ° and is explained by the value of the ratio between the forces of normal and tangential origin arising from the contact of the magneto-abrasive tool with the machined surfaces.

Published

2022

26. Os efeitos da técnica B.O.P.T. sobre o periodonto Revisão sistemática integrativa

Author

Mango, Luigi and ANDRADE, MARIA CATARINA COSTA CALAMOTE

Subjects

Tooth preparation (mesh term), Feather edge, Implant, Biologically Oriented Preparation Technique, Vertical preparation, Chamfer

Abstract

Introdução: As preparações protéticas em próteses fixas foram sempre reconhecidas como um elemento fundamental para a integração biológica e estética dos artefactos protéticos. Nas próteses fixas sobre dentes naturais, existem dois métodos principais de preparação: -Preparação com margens indefinidas: vertical ou sem linha de acabamento; -Preparação com margens definidas: horizontais ou com linhas de acabamento. Objetivos: O objetivo principal desta revisão integrativa da literatura é avaliar a resposta dos tecidos periodontais (osso e gengiva) à técnica BOPT sobre dentes e implante, comparar a técnica BOPT com as técnicas tradicionais e propor a técnica BOPT como alternativa valida em prótese fixa. Metodologia: Uma pesquisa bibliográfica foi realizada na PUBMED e Google Académico, utilizando a seguinte combinação de palavras-chave: biologically oriented preparation technique; vertical preparation; tooth preparation (MeshTerm); Feather Edge; chamfer; implant. Resultados/Discussão: O Comportamento dos tecidos periodontais ao redor dos dentes preparados segundo a técnica BOPT foi muito boa, mostrando baixos IP, PS diminuída, baixo índice de IG, estabilidade marginal, engrossamento da MG e baixas taxas de complicações pelo que podemos dizer que esta técnica promove a saúde e estabilidade dos tecidos periodontais. Conclusão: A técnica BOPT tanto em dentes naturais como em implantes tem um efeito excelente nos tecidos periodontais, embora seja mais complicada do que a técnica com margens definidas (técnica horizontal). Podemos dizer que é uma técnica clinicamente superior á convencional, não só em termos de estética, mas também em termos de funcionalidade, e pode ser utilizada com segurança na prática clínica diária. Introduction: Prosthetic preparations in fixed prostheses have always been recognised as a key element for the biological and aesthetic integration of prosthetic artefacts. In fixed prostheses on natural teeth, there are two main methods of preparation: - Preparation with undefined margins: vertical or without finishing line; -Preparation with defined margins: horizontal or with finishing lines. Objectives: The main objective of this integrative literature review is to evaluate the response of periodontal tissues (bone and gingiva) to the BOPT technique on teeth and implant, compare the BOPT technique with traditional techniques and propose the BOPT technique as a valid alternative in fixed prosthetics. Methodology: A literature search was performed in PUBMED and Google SCHOLAR using the following combination of keywords: biologically oriented preparation technique; vertical preparation; tooth preparation (mesh term); Feather Edge; chamfer; implant. Results/Discussion: The behaviour of periodontal tissues around the teeth prepared using the BOPT technique was very good, showing low PI, decreased PS, low GI, marginal stability, thickening of the MG and low complication rates so we can say that this technique promotes the health and stability of periodontal tissues. Conclusion: The BOPT technique on both natural teeth and implants has an excellent effect on the periodontal tissues, although it is more complicated than the technique with defined margins (horizontal technique). It can be said to be clinically superior to the conventional technique, not only in terms of esthetics but also in terms of functionality, and can be safely used in daily clinical practice.

Published

2022

27. Effect of different finish line preparations on the marginal and internal adaptation of cobalt-chromium metal alloy copings fabricated by using CAD-CAM technology: A systematic review and meta-analysis

Author

Praveen Badwaik, Naisargi P. Shah, Vidhi H. Sheth, Prashant Patil, Nikhil Bhanushali, and Vishrut Mohan Bhatnagar

Subjects

Chromium, Chamfer, Materials science, Crowns, Coping (architecture), Alloy, Dental prosthesis, Mechanical engineering, Adaptation (eye), CAD, Cobalt, Finish line, Dental Marginal Adaptation, engineering.material, Dental Prosthesis Design, Direct metal laser sintering, Adaptation, Psychological, engineering, Computer-Aided Design, Chromium Alloys, Oral Surgery

Abstract

Statement of problem The marginal and internal adaptation of a fixed dental prosthesis depends on a variety of factors, finish line designs being one of them. A clear consensus as to which finish line design can provide a better marginal and internal adaptation with respect to cobalt-chromium metal alloy copings fabricated by using computer-aided design and computer-aided manufacturing (CAD-CAM) technology is lacking. Purpose The purpose of this systematic review and meta-analysis was to evaluate the effect of different finish line preparations on the marginal and internal adaptation of cobalt-chromium metal alloy copings fabricated by using CAD-CAM technology. Material and methods Electronic (PubMed, Cochrane, EBSCOhost, and Google Scholar) and manual searches were conducted for articles published from January 2010 to December 2020 to identify relevant studies evaluating the effect of different finish line preparations (chamfer, deep chamfer, shoulder, rounded shoulder) on the marginal and internal adaptation of cobalt-chromium metal alloy copings fabricated by using CAD-CAM technology. Results A total of 573 articles were obtained via electronic search, and 10 articles were obtained through manual search, of which 24 in vitro studies were selected after title, abstract, and full-text screening and were included for both qualitative and quantitative analyses. The marginal adaptation was evaluated under the parameters of marginal gap, absolute marginal discrepancy, and vertical marginal discrepancy, whereas internal adaptation was evaluated under the parameters of internal gap, cervical discrepancy, axial discrepancy, and occlusal discrepancy. The methods of CAD-CAM fabrication (direct metal laser sintering, hard milling, and soft milling) were considered under the subgroup analysis. Conclusions An overall better marginal and internal adaptation was observed with shoulder and rounded shoulder finish line designs when CAD-CAM methods were used for coping fabrication. Marginal and internal adaptation in chamfer and deep chamfer finish line designs showed better results with soft milling and direct metal laser sintering methods, whereas shoulder finish line showed better results with hard milling.

Published

2022

28. Effect of abutment finish lines on the mechanical behavior and marginal fit of screw-retained implant crowns: An in vitro study

Author

Sergio Blasón-González, María Jesús Lamela-Rey, Ignacio Gonzalez-Gonzalez, Alfonso Fernández-Canteli, Ismael García-García, Angel Alvarez-Arenal, and Marta García-González

Subjects

Dental Implants, Dental Stress Analysis, Orthodontics, Chamfer, Crowns, Bone Screws, Abutment, Dental Abutments, Dental Implant-Abutment Design, Fatigue limit, Dynamic load testing, Screw retained, Materials Testing, In vitro study, Cyclic loading, Zirconium, Implant, Oral Surgery, Mathematics

Abstract

Statement of problem The design of the implant-abutment connection has been widely researched, but the impact of different crown-abutment geometries remains unclear. Purpose The purpose of this in vitro study was to evaluate the effect of different crown-abutment margin geometries on the mechanical behavior and fit of screw-retained implant-supported single-crown restorations by using mechanical static and fatigue tests and mastication simulation. Material and methods A total of 45 cobalt-chromium premolar-shaped metal frameworks were fabricated for single-unit implant-supported screw-retained restorations on stock abutments and internal hexagon O4.25×11-mm cylindrical implants. They were divided into 3 groups according to margin geometry: S, shoulder; C, chamfer; and F, feather-edge. Three static load until fracture and 24 dynamic load tests were performed by using the International Organization for Standardization 14801:2016 standard (ISO 14801:2016) (number of cycles limit: 5×106 cycles, frequency: 6 Hz). The ProFatigue software program was used to optimize the procedure (S, n=12 specimens; C, n=7 specimens; and F, n=5 specimens). Six additional specimens from each group were subjected to a mastication simulation (limit number of cycles: 1×106 cycles, cyclic loading from Pmin=30 N to Pmax=300 N, frequency: 6 Hz). Results from the fatigue tests were reported descriptively, and the Fisher exact test was used to analyze the difference in failure modes. Data from maximum misfit were evaluated by photogrammetry and statistically analyzed with the Anderson-Darling test and the Kruskal-Wallis and Dunn multiple comparison tests (α=.05). Results The fatigue limit was 456 N for group S, 512 N for group C, and 514 N for group F. The mean ±standard deviation misfit was 2.6 ±0.1 μm for group S, 3.8 ±1.1 μm for group C, and 3.6 ±0.8 μm for group F. Differences in misfit between groups S and C and between groups S and F were statistically significant (P Conclusions Crown-abutment connections with chamfer and feather-edge margins showed better mechanical behavior, while shoulder margin exhibited better fit. However, high levels of fit were achieved for all the evaluated geometries.

Published

2022

29. Load transfer mechanism of exterior beam-column joint with unsymmetrical chamfer

Author

Eddie Siu-Shu Lam, Shuai Fang, and Zhihang Xue

Subjects

Shear (sheet metal), Chamfer, Materials science, business.industry, Transfer mechanism, Shear strength, Structural engineering, business, Joint (geology), Beam (structure), Finite element method, Civil and Structural Engineering, Parametric statistics

Abstract

This study aims to understand the load transfer mechanism of exterior beam-column joints (BCJs) with unsymmetrical chamfers for strengthening. It comprises both experimental and numerical studies. Four 2/3-scale specimens were prepared including one without joint shear reinforcements as control, one with joint shear reinforcements and two specimens with chamfers installed. They were subjected to constant axial force and tested to failure under reversed horizontal displacements. Based on the experimental results, performance of BCJs can be improved by installing unsymmetrical chamfers. Secondly, parametric studies were conducted via non-linear finite element analysis. BCJs with different sizes of chamfer or ratios of LC/LBC ranging from 0.50 to 1.33 were modelled to study the effect of chamfer size on joint shear strength. Here, LC is size of chamfer; and LBC is minimum dimension of beam or column. It is found that the joint shear strength is further improved with increasing size of chamfer. Minimum ratio of LC/LBC is recommended as 0.67. Lastly, a load transfer mechanism for exterior joint with chamfer is proposed based on strut and tie concept. It takes into account the benefit of additional compressive strut in chamfer in increasing the joint shear strength.

Published

2021

30. Status on performance study of mixed nitride fuel pins of BREST reactor type

Author

E.V. Lachkanov, M. V. Skupov, A. A. Zherebtsov, L. M. Zabud’ko, E. A. Zvir, Yu. A. Ivanov, F. N. Kryukov, Yu. S. Mochalov, and A. F. Grachev

Subjects

Cladding (metalworking), Nuclear and High Energy Physics, Chamfer, Materials science, Nuclear Energy and Engineering, Mechanical Engineering, Nuclear engineering, Pellets, General Materials Science, Nitride, Safety, Risk, Reliability and Quality, Waste Management and Disposal

Abstract

Within the framework of the “PRORYV” project the “The comprehensive program for the calculation and experimental justification of fuel pins with mixed uranium-plutonium nitride fuel of BN-1200 and BREST reactors for the period up to 2020” has been developed Tpoянoв et al., 2015 [1]. The purpose of the program is to judge fuel pins performance, to ensure stability and required quality of the experimental technology for manufacturing of mixed nitride, fuel pins and experimental fuel assemblies (EFA) for testing in BOR-60 and BN-600 reactors, to optimize the design and technology of fuel pins with mixed nitride for the developed BN-1200 and BREST-OD-300 reactors based on the results of reactor testing. Currently, the program aims at justifying the starting operation stages of BREST-OD-300 and BN-1200 reactors. The following results were obtained to judge the fuel performance at the starting operation stage of BREST-OD-300 reactor (the maximum mixed nitride burn-up of 6 at%, the maximum damage dose of 89 dpa): 1. A set of out-of-pile investigations has been performed in order to obtain the necessary data on the properties of fuel and cladding materials, which are required for the development of calculation models of mixed nitride behavior under irradiation and design justification of their performance, including in design accidents. 2. To March 2021 the irradiation of eight BN-600 EFAs with EP823-Sh cladding was finished. In EFA-11 the maximum burn-up 9.0 at% and the maximum damage dose 107.6 dpa have been reached. PIE of fuel pins of two OU irradiated in BOR-60 and four EFAs irradiated in BN-600 with maximum burn-up of 5 at% and damage dose of 74.7 dpa are completed. Experimental data required for verification of calculation results of temperature and stress-strain state of mixed nitride pins with EP823-Sh steel cladding, as well as for evaluation of fuel pin performance and establishment of allowable lifetime of the BREST-type fuel pins with mixed nitride have been obtained. 3. The KORAT, DRAKON and BERKUT-U codes were modified and verified. Certification of the DRAKON code has been completed and the BERKUT-U code has been submitted for certification. Obtaining the permission to extend the irradiation of EFA beyond the parameters planned in the Program was possible due to the fact that independent concurrent calculations with the use of KORAT, DRAKON and BERKUTU codes were performed during the development of technical designs of fuel pins with mixed nitride in justification of the possibility to extend the irradiation of EFA-11, EFA 14, EFA-15 in BN-600 reactor. All codes confirmed this possibility. Positive results of irradiation of BREST-type fuel pins in BOR-60 reactor were also the most important argument for obtaining permission. In order to improve fuel pins with (U, Pu)N and further burn-up increase, the technologies of their production were developed and optimized, the design of the pellets was changed (chamfer) and also fuel pins with liquid-metal sub-layer have been considered.

Published

2021

31. The effect of trabecular chamfers on the compressive ductility of beetle elytron plates

Author

Xiaoming Zhang, Xindi Yu, Yuan Xu, Yaqin Fu, and Jinxiang Chen

Subjects

Core (optical fiber), Chamfer, Compressive strength, Materials science, Buckling, Mechanics of Materials, General Materials Science, Radius, Deformation (engineering), Composite material, Ductility, Instrumentation, Elytron

Abstract

Beetle elytron plates (BEPs) are a type of sandwich structure inspired by the internal architecture of beetle elytra and characterized by trabeculae (tube structure) in the core. BEPs are categorized into two types, end- and middle-trabecular BEPs (EBEPs and MBEPs, respectively), according to the trabecular position. Both have been shown to possess superior compressive strength relative to conventional sandwich plates. To further improve the compressive ductility of the BEP, the mechanical effect of the trabecular chamfer inspired by the Allomyrina dichotoma beetle elytron is experimentally investigated. The results are as follows: 1) Only the EBEP stress-strain curve can form a plateau, which means better compressive ductility. 2) Various buckling modes are produced in BEPs with different β (ratio of core height to wall thickness) and ξt (ratio of chamfering radius to trabecular radius); however, the compressive ductility is significantly improved only when full global buckling deformation is generated in the core of the EBEP. 3) In the present condition, only when ξt is not less than 1.5, global buckling can be generated in EBEPs with a larger range of β, and the ductility improvement effect can also be better utilized. These results reveal the mechanism of the chamfering effect and parameter range previously found in Allomyrina dichotoma elytra, which facilitates further optimization of the compressive property of the BEP.

Published

2021

32. A Systematic Review of Cementation Techniques to Minimize Cement Excess in Cement-Retained Implant Restorations.

Author

Reda, Rodolfo, Zanza, Alessio, Cicconetti, Andrea, Bhandi, Shilpa, Guarnieri, Renzo, Testarelli, Luca, and Di Nardo, Dario

Subjects

PERI-implantitis, DENTAL fillings, DENTAL cements, PROSTHETICS, METALLIC surfaces

Abstract

Background: The most used types of retention of implant-supported prostheses are screw-retained or cement-retained restorations. The advantages and disadvantages of both have been identified by various authors over the years. However, cement-retained implant crowns and fixed partial dentures are among the most used types of restorations in implant prostheses, due to their aesthetic and clinical advantages. When cemented prostheses are made on implants, the problem of cement residues is important and often associated with biological implant pathologies. The objective of this research was to establish to what extent the techniques to reduce excess cement really affect the volume of cement residues. Materials and Methods: This review was written following the PRISMA statement; a detailed search was carried out in three different electronic databases—PubMed, Scopus, and Cochrane Library. The inclusion criteria were prospective clinical studies, with at least 10 participants per group, and with at least 6 months of the follow-up period. Results: There have been many proposals for techniques supposed to reduce the amount of excess cement in the peri-implant sulcus and on the prosthetic components, but of these, which are exceptional in their in vitro capabilities, very few have been clinically validated, and this represents the real limitation and a great lack of knowledge regarding this topic. Three articles met the inclusion criteria, which were analyzed and compared, to obtain the information necessary for the purposes of the systematic review. Discussion: Extraoral cementation can reduce the excess cement, which, after a normal excess removal procedure, is, nevertheless, of such size that it does not affect the possibility of peri-implant pathologies developing. All these studies concluded that a small amount of cement residue is found in the gingival sulcus, and using eugenol-free oxide cements, the residues were only deposited on the metal surfaces, with a better peri-implant tissues health. Conclusion: Despite the limitations of this study, it was possible to carefully analyze these characteristics and obtain valuable suggestions for daily clinical practice. Resinous cements are considered, due to the free monomers present in them, toxic for the soft tissues. The provisional zinc-oxide cements, also eugenol-free, represent the ideal choice. The different grades of retentive forces provided by these cements do not seem to have clinical effects on the decementation of restorations. [ABSTRACT FROM AUTHOR]

Published

2022