Your search keyword '"Anna Gobetti"' showing total 17 results

1. Advances in understanding of multiple factors affecting vibration weld strength of thermoplastic polymers

Author

Kamol Dey, Anna Gobetti, and Giorgio Ramorino

Subjects

Vibration welding, Process parameters, Joint design, Weld strength, Thermoplastic, Materials of engineering and construction. Mechanics of materials, TA401-492

Abstract

Joining is a key part of the manufacturing process including automobile, household appliances, aircraft manufacture, and medical sectors. Vibration welding (VW), also known as linear friction welding, is the most used technique to join thermoplastic components and composites mostly due to its simplicity, controllability, versatility of applications, and cost-effectiveness in terms of thermal efficiency, compared to conventional adhesive, mechanical fastening, and other fusion bonding techniques. This review aims to provide a comprehensive overview of the recent advances in understanding the multiple factors affecting vibration weld strength of thermoplastic polymers and their composites. The key process parameters such as weld pressure, frequency, amplitude and time are discussed along with their influence on weld strength of various materials. The effects of material characteristics like crystallinity, fiber reinforcement, and nanoparticles are summarized. Furthermore, the impact of joint design factors like thickness and geometry on mechanical performance is reviewed. The current challenges and future research directions for optimizing vibration weld strength through process, material, and design selections are highlighted. The overall goal is to present updated understanding on achieving strong vibration welded joints by considering the complex interplay between processing, structure, and properties.

Published

2023

2. White steel slag from ladle furnace as calcium carbonate replacement for nitrile butadiene rubber: A possible industrial symbiosis

Author

Anna Gobetti, Giovanna Cornacchia, Marcello Gelfi, and Giorgio Ramorino

Subjects

Circular economy, Ladle furnace slag reuse, Non-conventional filler, Mechanical characterization, Sustainable rubber compound, Technology

Abstract

Over the years, natural resources conservation and waste management have become increasingly important globally, leading to the promotion of systemic approaches that integrate different processes by sharing materials, energy, and services. Recycling and reuse of materials have also become an area of increasing interest. This study investigates the potential use of ladle furnace (LF) slag, a waste product of the steel industry, as a non-conventional filler for rubber compounds. LF slag is produced during the refinement stage of the steelmaking process and is almost entirely landfilled. This research compares a standard nitrile-butadiene rubber (NBR) filled with calcium carbonate to an NBR filled with 10% LF slag (by volume). The study evaluates the compounds' processability and mechanical performance by means of rheometer analysis, hardness test, tensile test, compression test, and compression set. The use of LF slag in NBR rubber compounds could represent an example of a circular economy, where waste from one industry becomes a raw material for another.

Published

2023

3. Assessment of the influence of electric arc furnace slag as a non-conventional filler for Nitrile Butadiene Rubber

Author

Anna Gobetti, Giovanna Cornacchia, Marco La Monica, Annalisa Zacco, Laura Eleonora Depero, and Giorgio Ramorino

Subjects

Electric arc furnace slag, Mechanical characterization, Dynamic mechanical characterization, Payne effect, Crosslink density, Technology

Abstract

Reinforcement of polymers by the addition of particles filler is a complex phenomenon that depends mainly on the hydrodynamic effect and a complex interplay between polymer, filler, and interfacial region. Mineral fillers are usually adopted as low-cost extenders due to their lower cost.In this study, the influence of a waste material such as electric arc furnace steel slag is assessed as filler for Nitrile-Butadiene Rubber following experimental procedures and analytical calculations adopted for traditional fillers. It was found that the slag content affects the static and the dynamic properties by increasing the material's capability to storage and dissipate energy. In addition to an important contribution of the hydrodynamic effect, the presence of an increasing immobilized rubber fraction around the slag particles (quantified by a differential scanning calorimetry analysis) plays a central role. The slag stiffens the NBR composite; the increase of static tensile and dynamic shear storage moduli was found to be consistent with the Halpin-Tsai and Guth-Gold prevision models respectively. Moreover, the non-linear dynamic behavior was found to be well-fitted by the Kraus equation models. The reinforcing ability of the slag particles as filler was confirmed by the negative slope of the Kraus plot on swelling data.

Published

2023

4. Designing Biomimetic Conductive Gelatin-Chitosan–Carbon Black Nanocomposite Hydrogels for Tissue Engineering

Author

Kamol Dey, Emanuel Sandrini, Anna Gobetti, Giorgio Ramorino, Nicola Francesco Lopomo, Sarah Tonello, Emilio Sardini, and Luciana Sartore

Subjects

hydrogel, gelatin, chitosan, conductive carbon black, nanocomposite, cyclic compression, Technology

Abstract

Conductive nanocomposites play a significant role in tissue engineering by providing a platform to support cell growth, tissue regeneration, and electrical stimulation. In the present study, a set of electroconductive nanocomposite hydrogels based on gelatin (G), chitosan (CH), and conductive carbon black (CB) was synthesized with the aim of developing novel biomaterials for tissue regeneration application. The incorporation of conductive carbon black (10, 15 and 20 wt.%) significantly improved electrical conductivity and enhanced mechanical properties with the increased CB content. We employed an oversimplified unidirectional freezing technique to impart anisotropic morphology with interconnected porous architecture. An investigation into whether any anisotropic morphology affects the mechanical properties of hydrogel was conducted by performing compression and cyclic compression tests in each direction parallel and perpendicular to macroporous channels. Interestingly, the nanocomposite with 10% CB produced both anisotropic morphology and mechanical properties, whereas anisotropic pore morphology diminished at higher CB concentrations (15 and 20%), imparting a denser texture. Collectively, the nanocomposite hydrogels showed great structural stability as well as good mechanical stability and reversibility. Under repeated compressive cyclic at 50% deformation, the nanocomposite hydrogels showed preconditioning, characteristic hysteresis, nonlinear elasticity, and toughness. Overall, the collective mechanical behavior resembled the mechanics of soft tissues. The electrical impedance associated with the hydrogels was studied in terms of the magnitude and phase angle in dry and wet conditions. The electrical properties of the nanocomposite hydrogels conducted in wet conditions, which is more physiologically relevant, showed a decreasing magnitude with increased CB concentrations, with a resistive-like behavior in the range 1 kHz–1 MHz and a capacitive-like behavior for frequencies 1 MHz. Overall, the impedance of the nanocomposite hydrogels decreased with increased CB concentrations. Together, these nanocomposite hydrogels are compositionally, morphologically, mechanically, and electrically similar to native ECMs of many tissues. These gelatin-chitosan–carbon black nanocomposite hydrogels show great promise for use as conducting substrates for the growth of electro-responsive cells in tissue engineering.

Published

2023

5. Innovative Reuse of Electric Arc Furnace Slag as Filler for Different Polymer Matrixes

Author

Anna Gobetti, Giovanna Cornacchia, and Giorgio Ramorino

Subjects

EAF slag reuse, epoxy matrix, NBR matrix, end of life rubber tire, PP matrix, tensile test, Mineralogy, QE351-399.2

Abstract

The European steel industry produces about 70 million tons/year of steel by the electric arc furnace (EAF). The slag consists of about 15% by weight of the produced steel, thus from the perspective of the circular economy, it has a high potential as a co-product. This research aims to assess an innovative reuse of EAF slag as filler in different polymer matrixes: thermoplastic (polypropylene), thermosetting (epoxy resin), elastomeric (nitrile butadiene rubber), and recycled end of life rubber tire. A comparison between neat polymer and polymer filled with a certain amount of EAF slag has been carried out by tensile (or flexural), compression, and hardness tests. Experimental results show that slag as a filler increases the composites’ hardness and elastic modulus at the expense of toughness. For a safe reuse of the slag, the leaching of hazardous elements must comply with current legislation. It was found that, although the used EAF slag releases small amounts of Cr, Mo, and V, incorporating it into a polymer matrix reduces the leaching. The EAF slag particles distribution has been observed by scanning electron microscopy (SEM) images. The obtained results show good technical feasibility of this innovative slag application so that it could pave the way to a new industrial symbiosis between dissimilar sectors, bringing economic and environmental benefits.

Published

2021

6. A Circular Economy Virtuous Example—Use of a Stabilized Waste Material Instead of Calcite to Produce Sustainable Composites

Author

Ahmad Assi, Fabjola Bilo, Alessandra Zanoletti, Serena Ducoli, Giorgio Ramorino, Anna Gobetti, Annalisa Zacco, Stefania Federici, Laura E. Depero, and Elza Bontempi

Subjects

municipal solid waste incineration, fly ash, bottom ash, filler, new composites, three point bending test, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

This work reports and analyzes the mechanical properties of some composites obtained using stabilized waste with epoxy resins E-227. For comparison, correspondent composite samples were realized using calcite as a filler. The recovered stabilized waste was obtained by means of a new method to stabilize municipal solid waste incineration (MSWI) fly ash (FA), based on the use of bottom ash (BA). The aim of this paper is to show that the stabilization process, which can be considered a zero—waste treatment, produces inert materials, that can be reused as a filler. The production of new filler was made on a pilot plant, designed to verify the transferability of the proposed stabilization technology. Mechanical analysis revealed that flexural modulus raises by increasing the filler content around 30% wt, independently of filler type, stabilized sample or calcium carbonate. Mechanical properties are lower in the samples with the high amount of filler due to the crowding effect. The morphology of composite materials showed a non-homogeneous dispersion of particles in stabilized sample filler, characterized by large particle agglomerates. Finally, according to the ESCAPE simplified method, the obtained composites result more sustainable in comparison with the corresponding ones produced by using natural resources (like calcite). These findings open new possibilities for the reuse of the stabilized material, in frame of circular economy principles, with environmental and economic advantages.

Published

2020

7. 一种用于大脑牵拉的可扩展腔:颅内窥镜手术领域的新技术

Author

Elena Roca, Anna Gobetti, Giovanna Cornacchia, Oscar Vivaldi, Barbara Buffoli, and Giorgio Ramorino

Subjects

Retraction complication, Brain retraction, Brain retraction injury, Spatula, General Veterinary, Brain retractor design, General Medicine, General Pharmacology, Toxicology and Pharmaceutics, Transcranial endoscopic surgery, General Biochemistry, Genetics and Molecular Biology, Research Article

Abstract

Neurosurgery is a highly specialized field: it often involves surgical manipulation of noble structures and cerebral retraction is frequently necessary to reach deep-seated brain lesions. There are still no reliable methods preventing possible retraction complications. The objective of this study was to design work chambers well suited for transcranial endoscopic surgery while providing safe retraction of the surrounding brain tissue. The chamber is designed to be inserted close to the intracranial point of interest; once it is best placed it can be opened. This should guarantee an appreciable workspace similar to that of current neurosurgical procedures. The experimental aspect of this study involved the use of a force sensor to evaluate the pressures exerted on the brain tissue during the retraction phase. Following pterional craniotomy, pressure measurements were made during retraction with the use of a conventional metal spatula with different inclinations. Note that, although the force values necessary for retraction and exerted on the spatula by the neurosurgeon are the same, the local pressure exerted on the parenchyma at the edge of the spatula at different inclinations varied greatly. A new method of cerebral retraction using a chamber retractor (CR) has been designed to avoid any type of complication due to spatula edge overpressures and to maintain acceptable pressure values exerted on the parenchyma.

Published

2023

8. Post-consumer tires as a valuable resource: review of different types of material recovery

Author

Silvia Agnelli, Giorgio Ramorino, Michele Battista, and Anna Gobetti

Subjects

reuses of ELTs, Environmental Engineering, Resource (biology), Environmental economics, Pollution, Material recovery, ELTs, material recovery, Waste tire, Sustainability, Key (cryptography), Business, Waste Management and Disposal, Water Science and Technology

Abstract

Nowadays sustainability is a key topic and waste should be considered a resource. For this reason, a large body of literature is being developed on the management of the large quantity of post-cons...

Published

2020

9. Reuse of Electric Arc Furnace Slag as Filler for Nitrile Butadiene Rubber

Author

Anna Gobetti, Giovanna Cornacchia, and Giorgio Ramorino

Subjects

General Engineering, General Materials Science

Abstract

Abstract This work shows an innovative application for electric arc furnace (EAF) slag: its use as a filler for nitrile butadiene rubber (NBR). Composites with various EAF slag contents were tested. It was found that the polymer matrix significantly reduces the leaching of slag (determined according to the standard CEN-EN 12457-2) incorporated in the NBR. The processability characteristics determined by the rheometric curves highlight that the EAF slag accelerates the crosslinking kinetics, reducing the production cycle time. Mechanical characterization demonstrated that EAF slag increases hardness and compression modulus. The ability to recover an imposed deformation quantified by the compression set is reduced as the EAF slag amount increases but remains below an acceptable value. It can be stated that in sealing systems, the EAF slag as a filler for NBR positively affects the compound properties. Moreover, NBR filled with EAF slag also has magnetic properties compared with standard rubber.

Published

2022

10. Facile synthesis of N-doped biphasic TiO2 nanoparticles with enhanced visible light-driven photocatalytic performance

Author

Kamol Dey, Sonalika Vaidya, Anna Gobetti, Giorgio Ramorino, and Ashok K. Ganguli

Subjects

Anatase/brookite mixed-phase, Mechanics of Materials, Titanium tetraisopropoxide, Materials Chemistry, Photocatalyst, RhB, Titanium dioxide, General Materials Science, Titanium dioxide, Anatase/brookite mixed-phase, N-doping, Titanium tetraisopropoxide, Sol-gel method, Visible light, Photocatalyst, RhB, Sol-gel method, N-doping, Visible light

Published

2022

11. <scp>C</scp>haracterization of recycled end-of-life rubber tire filled with black slag

Author

Anna Gobetti, Giovanna Cornacchia, Candida Petrogalli, Roman C Kerschbaumer, Marco La Monica, and Giorgio Ramorino

Subjects

recycled rubber characterization, alternative filler for rubber, Polymers and Plastics, recycled ELTs, Mechanics of Materials, recycled ELTs, recycled rubber characterization, EAF slag reuse, waste reduction, alternative filler for rubber, Mechanical Engineering, Materials Chemistry, Ceramics and Composites, EAF slag reuse, waste reduction

Abstract

To date, discarded tires are reused in many applications, however, because of the enormous quantity decommissioned annually, it is essential to continue researching new recycling methods as well as applications to reduce waste and preserve new resources. In the present study, a simple recycling technology of end-of-life tire (ELT) powder is proposed, and the influence of steel slag as filler is assessed. Europe produces about 7 Mt of steel slag annually, and although most of it is reused as an artificial aggregate, about 15% is still landfilled. Also in the case of steel slag, the study of new applications is mandatory so that the combination of these two waste materials, in a 100% recycled composite fits across different industrial sectors facing the same environmental issue. It was found that the leaching of the slag incorporated in the rubber matrix is reduced and that the ELT powder recycled by this technology gives rise to a well-cohesive material. A good rubber-filler interaction was found by swelling test and differential scanning calorimetry (DSC) analysis. The slag reduces the friction coefficient and increases the thermal conductivity. The experimental results showed how some properties of recycled ELT can be improved by adding the steel slag.

Published

2023

12. Innovative Reuse of Electric Arc Furnace Slag as Filler for Different Polymer Matrixes

Author

Giovanna Cornacchia, Giorgio Ramorino, and Anna Gobetti

Subjects

Materials science, Thermoplastic, epoxy matrix, compression test, Thermosetting polymer, 02 engineering and technology, 010501 environmental sciences, engineering.material, Elastomer, 01 natural sciences, chemistry.chemical_compound, Natural rubber, Filler (materials), 0105 earth and related environmental sciences, Electric arc furnace, Polypropylene, chemistry.chemical_classification, Metallurgy, tensile test, leaching test, Geology, 021001 nanoscience & nanotechnology, Geotechnical Engineering and Engineering Geology, Mineralogy, PP matrix, flexural test, chemistry, visual_art, hardness test, Compression test, EAF slag reuse, End of life rubber tire, Epoxy matrix, Flexural test, Hardness test, Leaching test, NBR matrix, Tensile test, visual_art.visual_art_medium, engineering, end of life rubber tire, Slag (welding), 0210 nano-technology, QE351-399.2

Abstract

The European steel industry produces about 70 million tons/year of steel by the electric arc furnace (EAF). The slag consists of about 15% by weight of the produced steel, thus from the perspective of the circular economy, it has a high potential as a co-product. This research aims to assess an innovative reuse of EAF slag as filler in different polymer matrixes: thermoplastic (polypropylene), thermosetting (epoxy resin), elastomeric (nitrile butadiene rubber), and recycled end of life rubber tire. A comparison between neat polymer and polymer filled with a certain amount of EAF slag has been carried out by tensile (or flexural), compression, and hardness tests. Experimental results show that slag as a filler increases the composites’ hardness and elastic modulus at the expense of toughness. For a safe reuse of the slag, the leaching of hazardous elements must comply with current legislation. It was found that, although the used EAF slag releases small amounts of Cr, Mo, and V, incorporating it into a polymer matrix reduces the leaching. The EAF slag particles distribution has been observed by scanning electron microscopy (SEM) images. The obtained results show good technical feasibility of this innovative slag application so that it could pave the way to a new industrial symbiosis between dissimilar sectors, bringing economic and environmental benefits.

Published

2021

13. Effect of static offsets on the nonlinear dynamic mechanical properties of human brain tissue

Author

Giorgio Ramorino, Anna Gobetti, Giovanna Cornacchia, and Elena Roca

Subjects

Loss modulus, Viscosity, Non-linear dynamic behaviour, Dynamic characterization, Biomedical Engineering, Storage modulus, Brain, Brain tissue, Stress, Mechanical, Cellular environment, Payne effect, Superimposed static load, Elasticity, Humans, Kinetics, Stress, Mechanical, Nonlinear Dynamics, Biomaterials, Mechanics of Materials

Abstract

This study focuses on the variations in the brain tissue dynamic behaviour pointing out new insight into the material nonlinear viscoelasticity. Shear dynamic response curves are obtained in different working conditions in terms of strain sweep and superimposed static compression offsets (SCO) applied in orthogonal direction to the shear. The strain sweep mode is used to study the storage and loss moduli dependence on the amplitude of the applied strain. It is found that the material exhibits linear viscoelastic behaviour up to about 0.1% strain amplitude. Above this critical threshold, the storage modulus G' decreases rapidly with increasing dynamic strain amplitude and this effect is gradually intensified as the SCO are increased. In addition, it is observed that the loss factor (G''/G') increases by increasing the SCO applied to the specimens. The dynamic strain amplitude results of the storage modulus reveal that the elastic component of the brain tissue's stiffness (G') evaluated at low strain strongly increases with increasing static superimposed compression strain while the loss factor in the same strain range appears to be SCO independent. Finally, dynamic stiffness recovery after a large strain deformation is considered. The reduction in low amplitude dynamic modulus and subsequent recovery kinetics due to a perturbation is found to be independent of the level of the SCO. The same assessments were carried out on 5 consecutive strain sweep cycle loading. It has been noticed that at the last cycle, the dissipation peak is reduced, and the non-linearity of the curve begins earlier. This could be explained by the effects of cerebral edema on cells and their surrounding environment.

Published

2022

14. EAF slag as alternative filler for epoxy screeds, an example of green reuse

Author

Anna Gobetti, Giorgio Ramorino, Giovanna Cornacchia, Laura E. Depero, and Alessandro Riboldi

Subjects

Materials science, Mechanical characterization, Renewable Energy, Sustainability and the Environment, River sand replacement, Construction, Electric arc furnace slag, Epoxy screed, Leaching test, Epoxy, engineering.material, Indentation hardness, Industrial and Manufacturing Engineering, Flexural strength, Elemental analysis, Filler (materials), visual_art, engineering, visual_art.visual_art_medium, General Materials Science, Leaching (metallurgy), Composite material, Slag (welding), Waste Management and Disposal, Electric arc furnace

Abstract

In this study, electric arc furnace (EAF) slag as a filler in an epoxy matrix is investigated to validate its use instead of sand in construction applications, such as epoxy screeds. The slag chemical composition was determined and morphological and elemental analysis of its phases was analysed. The leaching of Cr, Mo, and V was evaluated both on EAF slag and on the composites materials, demonstrating that polymeric matrix inhibits the release of heavy metals. Epoxy composites with different percentages of slag were mechanically characterized by flexural test, compression test, and Vickers microhardness. The samples were compared to those of epoxy resin filled with sand in the same volume percentage. As a reference, a commercial product specifically formulated for laying epoxy screeds was also tested. The results demonstrated that EAF slag could substitute the sand in epoxy screeds, obtaining a composite material with equal and even superior mechanical properties.

Published

2021

15. Application of short-term methods to estimate the environmental stress cracking resistance of recycled HDPE

Author

Anna Gobetti and Giorgio Ramorino

Subjects

Stepwise isothermal segregation ratio, Work (thermodynamics), Materials science, Polymers and Plastics, Environmental stress cracking, Natural draw ratio, Organic Chemistry, Modulus, Strain hardening exponent, Polyethylene, Isothermal process, Strain hardening modulus, Recycled high density polyethylene, Tie molecules, chemistry.chemical_compound, chemistry, Materials Chemistry, High-density polyethylene, Composite material, Tensile testing

Abstract

Environmental stress cracking is a serious problem for polyethylene because it can cause failure without any visible warning due to the slow crack growth accelerated by aggressive agents. Tie molecules and entanglements are the main macromolecular characteristic increasing environmental stress cracking resistance, thus in this work mechanical and thermal properties governed by those macromolecular characteristics are determined by performing simple tests executable in the industrial laboratories for quality control on recycled high-density polyethylene. The mutual relation between the determined properties confirms their dependence on the investigated macromolecular characteristics and allows to predict in a comparative way the expected environmental stress cracking. The mechanical properties related to the environmental stress cracking resistance are the strain hardening modulus and the natural draw ratio. The strain hardening modulus is an intrinsic property that measure the disentanglement capability of the inter-lamellar links and the natural draw ratio is a highly sensitive parameter to the macromolecular network strength via the intercrystalline tie molecules. Since the measurement of these properties according to the standard ISO 18,488 requires a temperature chamber not often available in the industrial laboratories, the tensile test was performed also at room temperature and displacement rate 0.5 mm/min; a proportionality between the data obtained at different test condition emerged. The thermal property related to the environmental stress cracking resistance is the stepwise isothermal segregation ratio that state the chain fraction that generates a high rate of tie molecules responsible of environmental stress cracking resistance.

Published

2020

16. A Circular Economy Virtuous Example—Use of a Stabilized Waste Material Instead of Calcite to Produce Sustainable Composites

Author

Stefania Federici, Annalisa Zacco, Alessandra Zanoletti, Ahmad Assi, Giorgio Ramorino, Fabjola Bilo, Laura E. Depero, Serena Ducoli, Elza Bontempi, and Anna Gobetti

Subjects

Filler (packaging), new composites, Materials science, Composite number, 02 engineering and technology, 010501 environmental sciences, lcsh:Technology, 01 natural sciences, three point bending test, lcsh:Chemistry, bottom ash, chemistry.chemical_compound, FillerFly ash, Bottom ash, FillerFly ash, Municipal solid waste incineration, New composites,Three point bending test, General Materials Science, Composite material, lcsh:QH301-705.5, Instrumentation, 0105 earth and related environmental sciences, Fluid Flow and Transfer Processes, lcsh:T, Flexural modulus, Process Chemistry and Technology, filler, General Engineering, municipal solid waste incineration, Epoxy, 021001 nanoscience & nanotechnology, lcsh:QC1-999, Computer Science Applications, fly ash, Calcium carbonate, lcsh:Biology (General), lcsh:QD1-999, chemistry, lcsh:TA1-2040, Agglomerate, Fly ash, visual_art, Bottom ash, visual_art.visual_art_medium, lcsh:Engineering (General). Civil engineering (General), 0210 nano-technology, lcsh:Physics

Abstract

This work reports and analyzes the mechanical properties of some composites obtained using stabilized waste with epoxy resins E-227. For comparison, correspondent composite samples were realized using calcite as a filler. The recovered stabilized waste was obtained by means of a new method to stabilize municipal solid waste incineration (MSWI) fly ash (FA), based on the use of bottom ash (BA). The aim of this paper is to show that the stabilization process, which can be considered a zero&mdash, waste treatment, produces inert materials, that can be reused as a filler. The production of new filler was made on a pilot plant, designed to verify the transferability of the proposed stabilization technology. Mechanical analysis revealed that flexural modulus raises by increasing the filler content around 30% wt, independently of filler type, stabilized sample or calcium carbonate. Mechanical properties are lower in the samples with the high amount of filler due to the crowding effect. The morphology of composite materials showed a non-homogeneous dispersion of particles in stabilized sample filler, characterized by large particle agglomerates. Finally, according to the ESCAPE simplified method, the obtained composites result more sustainable in comparison with the corresponding ones produced by using natural resources (like calcite). These findings open new possibilities for the reuse of the stabilized material, in frame of circular economy principles, with environmental and economic advantages.

Published

2020

17. Partially purified homologous gonadotropins and plasma levels of estradiol and progesterone inRana esculenta, hypophysectomized or hypophysectomized and ovariectomized

Author

Virgilio Botte, Alberta Maria Polzonetti-Magni, and Anna Gobetti

Subjects

endocrine system, medicine.medical_specialty, Hypophysectomy, Period (gene), medicine.medical_treatment, Plasma levels, Biology, Rana, Endocrinology, Internal medicine, Ovariectomized rat, Homologous chromosome, medicine, Animal Science and Zoology, Luteinizing hormone, Hormone

Abstract

The administration of partially purified homologous follicular stimulating hormone to adult females of Rana esculenta hypophysectomized during the growth phase of the ovaries is followed by an increase of estrogens and progesterone in the blood. The luteinizing hormone seems to act by increasing only the progesterone level. These effects are eliminated by ovariectomy. In autumn and winter, hypophysectomy seems to affect only slightly the low levels of circulating hormones, probably because in that period the gonads are less sensitive to hormones from the pituitary.

Published

1980