Your search keyword '"T. Hamajima"' showing total 126 results

1. Demonstration of 10 KJ-Capacity Energy Storage Coil Made of MgB2 With Liquid Hydrogen Indirect Cooling

Author

T. Onji, R. Inomata, T. Yagai, T. Takao, Y. Makida, T. Shintomi, N. Hirano, T. Komagome, and T. Hamajima

Subjects

Electrical and Electronic Engineering, Condensed Matter Physics, Electronic, Optical and Magnetic Materials

Published

2023

2. Demonstration of kA-Class Rutherford Cables Using MgB2 Wires for an Energy Storage Device Suitable for a Liquid Hydrogen Indirect Cooling

Author

T. Yagai, M. Takahashi, R. Inomata, T. Takao, T. Onji, T. Komagome, Y. Makida, T. Shintomi, N. Hirano, T. Hamajima, A. Kikuchi, G. Nishijima, and A. Matsumoto

Subjects

Electrical and Electronic Engineering, Condensed Matter Physics, Electronic, Optical and Magnetic Materials

Published

2022

3. AC Loss Measurement of Double Pancakes Wound With MgB2 Rutherford Type Superconductor

Author

T. Komagome, M. Takahashi, T. Yagai, Y. Makida, T. Shintomi, and T. Hamajima

Subjects

Electrical and Electronic Engineering, Condensed Matter Physics, Electronic, Optical and Magnetic Materials

Published

2022

4. Comparison of ion source plasma responses to extraction grid bias between hydrogen and deuterium operations in NIFS-RNIS

Author

H Nakano, S Masaki, E Rattanawongnara, K Tsumori, K Ikeda, T Hamajima, K Nagaoka, and M Osakabe

Subjects

History, Computer Science Applications, Education

Abstract

An isotope effect of negative ion motion in plasma near a plasma grid (PG), which is a plasma-beam boundary grid, has been investigated in a negative hydrogen-ion source with the surface production process of the negative ion on the PG surface. Negative deuterium-ion (D-) density was higher than negative hydrogen-ion (H-) density in the condition without extraction-grid bias (V egb) and approached the H- density in the condition with V egb. Thus, the D- density responded stronger than the H- density to the V egb. The density of the negative hydrogen-ion isotopes and the density response to the V egb have been organized into respective identical trends by momenta of isotopes emitting from the PG. The Larmor motion can be a dominant mechanism of the negative ion transport from the PG to the plasma.

Published

2022

5. 20 T Compact Superconducting Outsert Employing Y123 Coated Conductors for a 45 T Hybrid Magnet

Author

Kei Koyanagi, Tsukasa Kiyoshi, K. Watanabe, M. Ono, Satoshi Hanai, T. Hamajima, Hiroaki Kumakura, Satoshi Awaji, and Gen Nishijima

Subjects

Superconductivity, hybrid magnet, Materials science, High-temperature superconductivity, Magnetic energy, Superconducting magnet, Condensed Matter Physics, Electronic, Optical and Magnetic Materials, law.invention, Nuclear magnetic resonance, law, Electromagnetic coil, Magnet, High magnetic field, Nb3Sn, react-and-wind process, YBCO coated conductor, Electrical and Electronic Engineering, Composite material, Electrical conductor, Current density

Abstract

We have been developing high-strength Nb3Sn strand cables to construct a high-field superconducting outsert for a 45 T hybrid magnet with a 25 T water-cooled resistive magnet. Evidence for cold work strengthening of repeated bending treatment (prebending effect) on Nb3Sn strands internally reinforced with CuNb stabilizer, which exhibits significant enhancement of the critical current density, has been found in the superconducting magnet fabrication process using a react-and-wind method. The strand cables were designed by controlling the constituent number of CuNb/Nb3Sn strands with the prebending effect and stainless steel strands, which are expected to have a stress limit 580 MPa at 0.4% strain. In order to design a compact superconducting outsert, high-strength strand cables are adopted in a magnetic field region below 14 T to maintain relatively large engineering current densities (Je). In a higher-field region above 14 T, YBa2Cu3O7 (Y123) coated conductors are employed for an insert coil. Using combination of Y123, Nb3Sn and NbTi superconductors, a 20 T superconducting outsert with a room temperature bore of 400 mm consisting of three layers made of Y123, two layers of CuNb/Nb3Sn and two layers of NbTi was designed. The coil parameters are 440 mm inner diameter, 1080 mm outer diameter and 1138 mm coil height. A very compact 20 T superconducting outsert with a stored magnetic energy 72 MJ at an operation current 903 A can be developed for a 45 T hybrid magnet.

Published

2009

6. Case Study of a 20 T-$\phi$400 mm Room Temperature Bore Superconducting Outsert for a 45 T Hybrid Magnet

Author

Gen Nishijima, K. Watanabe, T. Hamajima, Tsukasa Kiyoshi, M. Ono, Satoshi Awaji, Satoshi Hanai, and Hiroaki Kumakura

Subjects

Superconductivity, high magnetic field, hybrid magnet, Materials science, Magnetic energy, Niobium, chemistry.chemical_element, Bending, Superconducting magnet, Condensed Matter Physics, High field facility, Electronic, Optical and Magnetic Materials, Nuclear magnetic resonance, chemistry, Electromagnetic coil, Magnet, superconducting magnet, Electrical and Electronic Engineering, Composite material, Type-II superconductor

Abstract

The High Field Laboratory for Superconducting Materials (HFLSM) and the Tsukuba Magnet Laboratory (TML) conducted in collaboration a case study on development of a 50 T-class hybrid magnet. To construct a high magnetic field magnet with compact and energy-saving design as well as with easy operation and maintenance, one has to develop high-strength NbSn strand cables, with maximized superconducting characteristics and which can withstand a large electromagnetic force over 500 MPa. For this purpose, the HFLSM has proposed and investigated the effect of repeated bending treatment (pre bending) on NbSn strands internally reinforced with CuNb stabilizer leading to significant enhancement of the critical current density. In this report we present our results on application of the pre bending effect to the development of high-strength strand cables. The designed prebent-strand cables are composed of three CuNb/Nb3Sn strands (3 times Phi =1.73 mm) and four stainless steel strands ( 4 times Phi =1.73 mm). High-strength CuNb/Nb3Sn strand cables have shown a stress limit of 552 MPa at 0.4% strain, and a critical current of Ic =1000 A at 18.5 T and 2.0 K. For such high-strength strand cables, a 20 T superconducting magnet with a room temperature bore (Phi =400 mm) consisting of five layers made of CuNb/NbSn and two layers of NbTi was designed. The coil parameters are: inner diameter Phi = 440 mm, outer diameter Phi = 1332 mm, coil height 1321 mm, inductance 350 H and magnetic stored energy 144 MJ at 908 A of the operation current. Winding of the coil was experimentally successfully simulated using dummy 3 + 4 strands cable composed of three Cu strands and 4 stainless steel strands with a similar design to the 3 + 4 strands superconducting cable presented above. The 20 T superconducting coil will be used as a 20 T outsert for a 25 T water-cooled resistive insert to obtain a 45 T hybrid magnet.

Published

2008

7. Interferometry near Offset Synthesizing for Shallow Water Demultiple

Author

T. Hamajima, S. Narahara, M. Katou, and M. Kose

Subjects

Hydrology, Waves and shallow water, Interferometry, Offset (computer science), Mineralogy, Geology

Published

2016

8. The Longitudinal Strength of a Body Frame in Consideration of Plastic Regions

Author

T. Hamajima, K. Nishimura, and Y. Terumichi

Published

2014

9. Cyclic and mechanical test results of the 100 kWh SMES model coil

Author

R. Manahan, Mamoru Shimada, J.M. Moller, Jon Zbasnik, Hirokazu Tsuji, Kimiyuki Shinoda, K. Ishio, Takaaki Isono, Satoshi Hanai, Yamamoto Masahiro, Yoshihiro Wachi, Nicolai Martovetsky, Takashi Himeno, Takashi Satow, M. Tezuka, M. Ono, T. Hamajima, and I. Takano

Subjects

Test facility, Pilot plant, Reliability (semiconductor), Materials science, Electromagnetic coil, Superconducting magnet, Electrical and Electronic Engineering, Condensed Matter Physics, Mechanical reliability, Coil inductance, Automotive engineering, Electronic, Optical and Magnetic Materials, Test (assessment)

Abstract

The long term reliability of the SMES model coil for the 100 kWh SMES pilot plant was investigated in a 1000 cycles cyclic test in the test facility of the Lawrence Livermore National Laboratory (LLNL) in 1998, in collaboration between Japan and the USA. The coil parameters such as coil inductance, magnetic field and AC loss were measured before and after the cyclic test. They did not change. The coil was successfully charged up to 40.53 kA in the mechanical performance test, which gave mechanically the same conditions as in the SMES pilot plant at rated current. After all performance tests, the coil was checked visually and electrically, and no degradation was observed. Mechanical reliability of the SMES model coil was verified in the performance tests. The obtained technical results encourage recommendation of the construction of the pilot plant.

Published

2000

10. SMES coil configurations with reduced stray field

Author

Mamoru Shimada, Yoshihiro Wachi, H. Takano, T. Hamajima, Satoshi Hanai, and M. Tezuka

Subjects

Physics, Quantitative Biology::Biomolecules, Demagnetizing field, Astrophysics::Instrumentation and Methods for Astrophysics, Magnetic flux leakage, Solenoid, Superconducting magnet, Condensed Matter Physics, Electronic, Optical and Magnetic Materials, Magnetic field, Nuclear magnetic resonance, Electromagnetic coil, Quantum electrodynamics, Electromagnetic shielding, Physics::Atomic Physics, Electrical and Electronic Engineering, Multipole expansion

Abstract

The stray field of SMES restricts its site location, although SMES has an attractive potential for power management and quality control. The stray field outside a solenoid is analyzed by a series of Legendre polynomials and the result is applied to the stray fields of various SMES coil configurations. As long as the summation of magnetic moments from all coils is zero, the term of a stray field decreasing as r/sub p//sup -3/ can be cancelled out. The higher order of the stray field can vanish if the coil arrangement is optimized. In this paper, the authors consider a single solenoid as a reference, active shield coils, axially displaced coils and multipole coils to reduce the stray field. The multipole coil configuration has high potential to drop the stray field, since the stray field behaves like r/sub p//sup (3+n/2)/, where n is the coil number.

Published

1999

11. Specifications and performance experiences of internally cooled small-scale SMES

Author

T. Hamajima, Takashi Satow, K. Kitamura, and M. Sakai

Subjects

Controllability, Materials science, Flexural strength, Electromagnetic coil, Insulation system, Magnet, Boiling, General Physics and Astronomy, Mechanical engineering, Breakdown voltage, General Materials Science, Insulator (electricity), Computer Science::Other

Abstract

SMES has a high potential for application in power utility, because of high plant efficiency, quick response, and power controllability. SMES is composed of a superconducting coil, vapor-cooled leads, and a power conditioning system. The electrical specifications for SMES are discussed on the basis of input and output power depending on size and application. As breakdown voltage in helium gas is low, an internally cooled magnet system is preferable to a pool boiling one. A model coil for a 100 kWh SMES, which is a typical forced cooled magnet system, was developed in Japan and then successfully tested. A glass–polyimide–glass tape insulation system was investigated in view of electrical and mechanical strength prior to fabrication. The breakdown voltage measurement of a sample with an artificial crack showed sufficient strength. The insulation critical fracture strength has a good agreement with the Mohr–Coulomb criterion.

Published

1998

12. Eddy current loss reduction of superconducting magnets for MAGLEV with a multilayer superconducting sheet

Author

M. Yamaji, Motoaki Terai, S. Inadama, M. Arata, T. Hamajima, A. Miura, Masamichi Kawai, Yamashita Tomohisa, Y. Sanada, M. Fujita, and M. Yamaguchi

Subjects

Physics, Superconducting electric machine, Electromagnetic suspension, Superconducting magnet, Superconducting magnetic energy storage, Condensed Matter Physics, Engineering physics, Electronic, Optical and Magnetic Materials, law.invention, Nuclear magnetic resonance, law, Condensed Matter::Superconductivity, Magnet, Heat generation, Eddy current, Electrical and Electronic Engineering, Magnetic levitation

Abstract

Superconducting conductors and magnets used in the fields of power transmission, generators, MRI, MAGLEV etc. experience AC magnetic fields causing heat generation in the magnets' structure and AC losses in the superconductors. Therefore, AC magnetic shields with wide frequency range in high magnetic fields are desirable to reduce heat generation within the cryogenic region and increase system efficiency. This paper describes the performance of a multilayer superconducting sheet as an AC magnetic field shield, eddy current analysis of MAGLEV coil and eddy current loss measurement of an R&D cryostat with a superconducting magnet. Eddy current loss was reduced to about one fourth of the loss level without a superconducting shield.

Published

1997

13. Electrical circuit models among superconducting strands in real-scale CICCs

Author

T. Ando, M. Ono, T. Hamajima, T. Fujioka, T. Ito, Norikiyo Koizumi, and Hirokazu Tsuji

Subjects

Physics, Frequency band, Distributed element model, Phantom circuit, Condensed Matter Physics, Series and parallel circuits, Topology, Line (electrical engineering), Electronic, Optical and Magnetic Materials, law.invention, Nuclear magnetic resonance, law, Electrical network, Electrical and Electronic Engineering, Short circuit, Electrical impedance

Abstract

Stability margin of the cable-in-conduit conductor is greatly influenced by current transfer performance among strands. When we estimate the stability margin analytically, we must assume the electrical circuit model among strands, but it is difficult to know it for real-scale cables, because the cable has many parallel circuits with a lot of strands and twisted stages. The measurement of the frequency characteristics of impedance among strands shows that the circuit can be regarded as two-wire model. By this measurement we can judge whether the circuit behaves like a distributed constant circuit or a lumped element circuit within the intended frequency band. When the circuit is a lumped element circuit, we can also get the interval distance between each contact point and its resistance. This paper also shows that stable conductors are often represented with a lumped element circuit that has well-contacted points with a short interval.

Published

1997

14. The relation between transverse mechanical and electrical properties of the multi-twisted stage cables of CICC

Author

M. Ono, T. Hamajima, M. Arata, H. Takano, H. Maeda, and T. Fujioka

Subjects

Materials science, Titanium alloy, Superconducting magnet, Condensed Matter Physics, Electronic, Optical and Magnetic Materials, Conductor, Compressive load, symbols.namesake, Transverse plane, Rigidity (electromagnetism), symbols, Electrical and Electronic Engineering, Composite material, Lorentz force, Electrical impedance

Abstract

The transverse resistance among strands of multi-stage twisted cables is one of the most important parameters to decide the stability and the AC losses. This value is varied with the cable compression affected by the void fraction or the Lorentz forces under charging. Furthermore it is also influenced by cyclic number of transversal compression. This paper describes the basic mechanical property of the chrome plated NbTi cable for the transverse compression, and the relation of the transverse resistance and the internal loads of the cable by measuring the impedance and the rigidity for various internal loads. It shows that the transverse resistance, which is much influenced with the performance of conductor, is always changed corresponding to the compressive load and dose not indicate the same resistance after release from the compression because of its elastic hysteresis.

Published

1997

15. Influence of coupling current among superconducting strands on stability of cable-in-conduit conductor

Author

S. Hanawa, Yoshihiro Wachi, T. Hamajima, M. Yamaguchi, and M. Ono

Subjects

Coupling, Nuclear magnetic resonance, Materials science, Limiting current, Transient (oscillation), Mechanics, Electrical and Electronic Engineering, Electric current, Current (fluid), Electrical conductor, Electronic, Optical and Magnetic Materials, Voltage, Conductor

Abstract

Stability margin of the Cable-in-Conduit Conductor used under the pulse field is greatly influenced by inter-strand coupling losses and current unbalance with coupling current among strands. The large transverse resistance trades sufficient current transfer among strands for low AC losses. The large stability margin is brought by sufficient current transfer, low AC losses and uniform current distribution. Then we should decide the reasonable value of transverse resistance corresponding to the pulse condition. In this paper, the stability is estimated by the simplified distributed constant circuits simulating unbalanced current, that is transient coupling current, and transfer current among strands. In the non-insulated strands, the inductive voltage occurred during charging in a twisted area of half pitch must be enough lower than normal voltage of local quench at the limiting current. This paper also shows that the short twisted pitch and long cables about 1000 m give not only low AC losses but also uniform current distribution during charging for insulated strands.

Published

1996

16. Effect of insulation on stability of cable-inconduit type forced-cooled superconducting coils

Author

S. Hanawa, Osamu Motojima, Junya Yamamoto, T. Hamajima, M. Ono, and Yoshihiro Wachi

Subjects

Superconductivity, Quantitative Biology::Biomolecules, Work (thermodynamics), Materials science, General Physics and Astronomy, chemistry.chemical_element, Conductor, chemistry, Electromagnetic coil, Thermal, General Materials Science, Composite material, Current (fluid), Electrical conductor, Helium

Abstract

The relationship between stability of superconductor and structure of the cable-in-conduit (CIC)-type conductor is discussed by studying the simple estimation of work by strand movement and results of stability tests of small coils wound by five kinds of CIC-type NbTi conductors. The allowable thermal disturbance energy not to quench the coil is estimated. When the strands are electrically insulated, the stability of the CIC-type conductor is low because of inhomogeneous current distribution among the strands. On the other hand, when the strands are not insulated, the conductors are stable until the thermal disturbance energy approaches the helium enthalpy rise from bath temperature to the temperature of current sharing because of quick current transfer to other strands.

Published

1996

17. Ultrasonic inspection of rocket fuel model using laminated transducer and multi-channel step pulser

Author

Tsuyoshi Mihara, A. Sato, H. Tashiro, and T. Hamajima

Subjects

Engineering, integumentary system, business.industry, Acoustics, System of measurement, education, Ultrasonic testing, Rocket propellant, Solid fuel, humanities, stomatognathic diseases, Transducer, Signal-to-noise ratio, Ultrasonic sensor, Solid-fuel rocket, business

Abstract

For the ultrasonic inspection for the packing of solid fuel in a rocket booster, an industrial inspection is difficult. Because the signal to noise ratio in ultrasonic inspection of rocket fuel become worse due to the large attenuation even using lower frequency ultrasound. For the improvement of this problem, we tried to applied the two techniques in ultrasonic inspection, one was the step function pulser system with the super wideband frequency properties and the other was the laminated element transducer. By combining these two techniques, we developed the new ultrasonic measurement system and demonstrated the advantages in ultrasonic inspection of rocket fuel model specimen.

Published

2013

18. Internal stress influence on high current density superconducting magnet performance

Author

T. Hirumachi, O. Ohsaki, T. Hamajima, and M. Arata

Subjects

Materials science, Superconducting magnet, Mechanics, Superconducting magnetic energy storage, equipment and supplies, Condensed Matter Physics, Electronic, Optical and Magnetic Materials, Conductor, Stress (mechanics), Nuclear magnetic resonance, Electromagnetic coil, Magnet, Electrical and Electronic Engineering, human activities, Radial stress, Current density

Abstract

Dry-wound superconducting solenoids offer good manufacturability of large bore magnets but occasionally suffer from premature quenches triggered by small heat generated within the magnets. The principal source of heat is thought to be conductor motion induced frictional heating and/or filler material fracture released energy in windings. This paper describes major specification, stress analysis and training performance and their relation to a series of magnets that were constructed and tested to establish stabilizing methods of a large bore dry-wound superconducting solenoid. The results suggested that conductor motion took place even though radial stress in the magnet was still compressive and a conductor was expected in its original position. >

Published

1995

19. Estimation method of stability for multi-strand superconducting cables under partial current distribution

Author

T. Hamajima, Y. Sawada, H. Yamaguchi, K. Yamamoto, T. Fujioka, M. Ono, and Yoshihiro Wachi

Subjects

Materials science, Mechanics, Condensed Matter Physics, Stability (probability), Characteristic impedance, Electronic, Optical and Magnetic Materials, law.invention, Electrical resistance and conductance, law, Electrical network, Equivalent circuit, Electrical and Electronic Engineering, Current (fluid), Joule heating, Partial current

Abstract

The stability margin of CIC multi-strand superconducting cables under partial current distribution is affected by electrical resistance among the strands. This means that the stability is governed by the current sharing process among the strands. The achievement of high stability against partial current distribution will be realized by rapid current transfer to the other strands rather than by thermal diffusion of Joule heating to helium. A simplified electrical circuit model, that is a distributed constant circuit for two strands, simulating the current sharing process between strands, is proposed to estimate the stability. The results of the stability analysis, clarify the limiting condition to maintain stability. The circuit constants governing the sharing process can be investigated from the frequency properties of a characteristic impedance measured with CICC short samples. These results are confirmed with experimental results of stability tests under partial current distribution. The proposed estimation method is viable. >

Published

1995

20. Stability characteristics of a cable-in-conduit conductor by subcooled supercritical helium

Author

Yoshihiro Wachi, Hirofumi Shinohara, Mamoru Shimada, Kazuya Takahata, M. Ono, Junya Yamamoto, T. Hamajima, H. Takano, S. Hanawa, and O. Motojima

Subjects

Materials science, Electromagnet, Limiting current, Solenoid, Superconducting magnet, Mechanics, Electronic, Optical and Magnetic Materials, law.invention, Subcooling, Electromagnetic coil, law, Electrical and Electronic Engineering, Current (fluid), Electric current

Abstract

The stability and limiting current of a NbTi forced-cooled superconducting coil have been investigated experimentally and analytically at the subcooled condition below 4.5 K. The test coil was wound in a one layer solenoid from a cable-in-conduit type conductor of critical current of 5.1 kA at 4.2 K and 6.5 T, whose total length was 10 m. It was installed in the bore of a back-up superconducting magnet that provided field 8 T at the test coil. The stability margin of the coil as a function of normalized current (transport current/critical current) were measured. The results are compared with the formula proposed by Dresner and reported to predictions of stability margin and limiting current at subcooled condition below 4.5 K. >

Published

1994

21. Study on the coil for quick response superconducting generator

Author

S. Oshima, K. Inoue, T. Hamajima, K. Ito, K. Nakanishi, and Tadashi Tokumasu

Subjects

Materials science, Electromagnet, business.industry, Superconducting electric machine, Electric generator, Superconducting magnet, Electronic, Optical and Magnetic Materials, law.invention, Nuclear magnetic resonance, law, Electromagnetic coil, Magnet, Electrical equipment, Optoelectronics, Electrical and Electronic Engineering, Electric current, business

Abstract

Low AC loss and high current density NbTi/Cu/CuNi double stage cabling superconductor for quick response superconducting generator (SCG) has been developed. Its characteristics were measured by short sample and several coil models. The critical current of 14 kA at 6 T and the AC loss of 10 kw/m/sup 3/ were achieved, and coil models were excited under high current change rate operation without the quench. The developed superconductor will be able to be applied to a 70 MW class quick response SCG. >

Published

1994

22. Stability of a Cable-in-Conduit Conductor Cooled by Supercritical Helium below 4.2K

Author

S. Hanawa, Osamu Motojima, Kazunari Takahata, Junya Yamamoto, Hirofumi Shinohara, T. Hamajima, Michitaka Ono, H. Takano, Mamoru Shimada, Yoshihiro Wachi, and Takashi Satou

Subjects

Superconductivity, Nuclear magnetic resonance, Materials science, chemistry, Electromagnetic coil, Limiting current, chemistry.chemical_element, Solenoid, Mechanics, Lambda point refrigerator, Supercritical fluid, Helium, Conductor

Abstract

A forced-cooled superconducting coil has been studied for the next step fusion machines because of many merits. The coil can be cooled by supercritical helium below 4.5K, which improves the stability and other superconducting characteristics. To study the stability of the coil at lower temperature, a test coil wound in a one-layer solenoid with a CIC conductor was tested below 4.5K. It was proved that the stability at lower temperature would be able to predict from the relationship between the critical current below 4.5K and the stability characteristics at 4.5K. The limiting current at lower temperature is in good agreement with the Lottin's experimental results.

Published

1994

23. BASIC STUDY AND APPLICATION FOR ULTRASOUND DISPERSION IN CONCRETE STRUCTURES

Author

T. Mihara, M. Maruta, T. Hamajima, Y. Udagawa, H. Tashiro, Donald O. Thompson, and Dale E. Chimenti

Subjects

Transducer, Materials science, Aggregate (composite), System of measurement, Acoustics, Ultrasonic testing, Dispersion (optics), Reflection (physics), Ultrasonic sensor, Finite element method

Abstract

In this research, after the simulation of FEM analysis using the three dimensional concrete model, we focused on the large dispersion of the transmitted echo in concrete due to the velocity difference between aggregate and mortar. Then to support the efficient measurement for this large dispersion the super‐broad band ultrasonic measurement system using step function pulsar combined with the broad band transducer of 500 kHz in frequency was applied for the transmission and reflection measurement of the concrete specimen with a thickness of 200 mm. Furthermore, the spatial averaging measurement procedure for a virtual larger transducer was applied as a basic research of the ultrasonic evaluation for industrial concrete structure.

Published

2011

24. Fabrication of superconductor for the DPC-TJ coil

Author

T. Ogaki, Nakayama Shigeo, Mamoru Shimada, T. Ando, Masataka Nishi, T. Hamajima, Hirokazu Tsuji, K. Noguchi, Yoshikazu Takahashi, H. Mukai, N. Aoki, and T. Fujioka

Subjects

Superconductivity, Residual resistivity, Fabrication, Materials science, Electromagnetic coil, General Physics and Astronomy, General Materials Science, Fusion power, Composite material, Electrical conductor, Line (electrical engineering), Conductor

Abstract

A forced-cooled superconducting coil (DPC-TJ) was wound with a double walled cable-in-conduit referred to as preformed-armour type C ICC. In this paper, we describe the fabrication of the conductor for the DPC-TJ coil with the first conduit, which plays a role in sealing the supercritical helium from the vacuum. Because the DPC-TJ coil has a high average current density of 40 A mm−2 (12 T,4.2 K) in the winding area, an (NbTi)3Sn strand formed by the Nb tube method was selected, which has a very high critical current density in the non-Cu area. As a result of development work, a strand could be fabricated which met the following requirements: critical current density > 600 A mm−2 at 12 T and residual resistivity ratio (RRR) value > 50. A fabrication line for the cable-in-conduit conductors using the roll-forming method was also developed. Through fabrication of the conductor for the DPC-TJ coil, it was demonstrated that large and long conductors could be fabricated for future fusion reactors.

Published

1993

25. Development of high current density, large superconducting coil for fusion machines: the DPC-TJ Program

Author

H. Mukai, Masataka Nishi, T. Fujioka, T. Ando, T. Hamajima, and Hirokazu Tsuji

Subjects

Superconductivity, Fusion, Materials science, Thermonuclear fusion, Fabrication, Rigidity (electromagnetism), Electromagnetic coil, Nuclear engineering, General Physics and Astronomy, General Materials Science, Fusion power, Conductor

Abstract

A 40 A mm −2 , 24 kA, high rigidity, large forced-cooled, (NbTi) 3 Sn superconducting coil referred to as the DPC-TJ was developed during collaboration between the Japan Atomic Energy Research Institute and Toshiba Corporation. The purpose of the DPC-TJ Program is to demonstrate the realizability of a high average current density with a large coil wound by a large Nb 3 Sn superconductor which meets the requirements of the conductor for the next thermonuclear fusion machine. The DPC-TJ was fabricated as the first coil of the preformed-armour type, which was developed in this programme as a fabrication method that enables us to achieve high rigidity and high current density simultaneously without difficulty. Testing of the DPC-TJ coil was performed successfully and the DPC-TJ Program was completed having accomplished its objectives.

Published

1993

26. Charging test results of the DPC-TJ, a high-current-density large superconducting coil for fusion machines

Author

H. Ishida, Y. Kamiyauchi, H. Ebisu, A. Miyake, M. Oshikiri, Hajime Nakajima, Masayoshi Sugimoto, T. Sasaki, Masataka Nishi, H. Ohuchi, J.R. Armstrong, K. Kawano, H. Mukai, F. Tajiri, Y. Takaya, T. Ando, Yoshihiro Wachi, Y. Kon, Masami Seki, Takeshi Kato, Norikiyo Koizumi, T. Fujioka, J. Okayama, S. Iwamoto, Susumu Shimamoto, H. Hanawa, K. Koizumi, Koji Yoshida, Tadao Hiyama, Kiyoshi Okuno, T. Ohuchi, Eisuke Tada, Y. Sanada, T. Hamajima, Mamoru Shimada, F. Hosono, Y. Takahashi, Hirokazu Tsuji, Takaaki Isono, H. Hiue, and M. Ono

Subjects

Physics, Superconductivity, Fusion, Thermonuclear fusion, Tokamak, Nuclear engineering, Superconducting magnet, Fusion power, Condensed Matter Physics, Electronic, Optical and Magnetic Materials, law.invention, Nuclear magnetic resonance, law, Electromagnetic coil, Electrical and Electronic Engineering, Current density

Abstract

The authors describe the electromagnetic results and the quench phenomena of the DPC-TJ large cable-in-conduit Nb/sub 3/Sn coil experiment which took place in the summer of 1991. The DPC-TJ coil was developed by Toshiba and JAERI in collaboration to demonstrate the realization of (NbTi)/sub 3/Sn superconducting coils for fusion with high average current density of 40 A/mm/sup 2/. The coil was charged up to its rated current of 24 kA (40 A/mm/sup 2/) at 7.6 T without quench in the DPC test facility. Thereafter, the electromagnetic performance was tested by measuring I/sub c/ and T/sub cs/, and the critical current at 12 T was estimated to be 41 kA. The quench phenomena of the DPC-TJ coil were also tested by measuring normal-zone propagation velocity to get the protection design. In these experiments, very slow and very fast propagation were observed. Many other electromagnetic results were also obtained, which are necessary for the design of fusion machines such as International Thermonuclear Experimental Reactor. >

Published

1993

27. Disturbance energy of a forced flow cooled superconducting coil

Author

M. Yamaguchi, M. Ono, T. Hamajima, Mamoru Shimada, and Yoshihiro Wachi

Subjects

Superconductivity, Materials science, Flow (psychology), chemistry.chemical_element, Mechanics, Superconducting magnet, Superconducting magnetic energy storage, Condensed Matter Physics, Electronic, Optical and Magnetic Materials, chemistry, Electromagnetic coil, Dielectric heating, Hydraulic diameter, Electrical and Electronic Engineering, Helium

Abstract

The disturbance energy of a forced flow cooled superconducting coil (FCC) is discussed. The authors built a FCC and carried out stability and quench tests. The test coil had a 36-m-long cooling path with a 0.37-mm hydraulic diameter. It was cooled by supercritical helium at 4.1 K. The stability margin of the FCC was evaluated by using RF heating. In addition, the coil quench test was performed. The disturbance energy at quench is estimated by the stability margin characteristics. The disturbance energy obtained agrees well with that of a simple analytical model. >

Published

1993

28. Stability performance of the DPC-TJ Nb/sub 3/Sn cable-in-conduit large superconducting coil

Author

T. Sasaki, T. Fujioka, T. Hamajima, Koji Yoshida, S. Nakayama, Masataka Nishi, H. Mukai, Y. Wachi, Kiyoshi Okuno, Hirokazu Tsuji, and Norikiyo Koizumi

Subjects

Superconductivity, Quenching, Materials science, Nuclear engineering, Limiting current, Superconducting magnet, Fusion power, Condensed Matter Physics, Electronic, Optical and Magnetic Materials, Conductor, Nuclear magnetic resonance, Electromagnetic coil, Electrical and Electronic Engineering, Electrical conductor

Abstract

The DPC-TJ test coil was developed in the collaboration between the Japan Atomic Energy Research Institute (JAERI) and Toshiba for the Demo Poloidal Coil (DPC) project at JAERI to obtain key technologies required for the construction of superconducting coils of a fusion experimental reactor. The DPC-TJ is a 1-m-bore, 40-A/mm/sup 2/ forced-flow cooled superconducting coil wound with a double-walled 24-kA, 12-T (NbTi)/sub 3/Sn cable-in-conduit conductor. The DPC-TJ was tested to investigate stability performance at operating conditions between 15 kA, 2.3 T and 30 kA, 4.5 T. Another test was carried out with a 1/18 reduced-scale model of the DPC-TJ conductor to investigate stability margins at the designed field of 12 T. Results indicated the limiting current of the DPC-TJ was around 25 kA. The DPC-TJ coil was stably charged up to 30 kA without any normal transitions because only a small mechanical disturbance could occur in the newly developed type of conductor. >

Published

1993

29. Tribological Properties of Cr Plated (NbTi)3Sn Superconducting Wire in Liquid Helium

Author

Michitaka Ono, Haruhiko Arai, Tomoharu Shimizu, T. Hamajima, Koshichi Noto, and Akira Iwabuchi

Subjects

Materials science, Liquid helium, law, Superconducting wire, engineering, engineering.material, Tribology, Composite material, law.invention

Published

1993

30. Stability of a NbTi forced-cooled superconducting coil by subcooled supercritical helium

Author

T. Hamajima, M. Yamaguchi, Yoshihiro Wachi, and Mamoru Shimada

Subjects

Materials science, Condensed matter physics, Critical heat flux, chemistry.chemical_element, Solenoid, Mechanics, Superconducting magnet, Electronic, Optical and Magnetic Materials, Forced convection, Physics::Fluid Dynamics, Subcooling, chemistry, Heat flux, Electromagnetic coil, Electrical and Electronic Engineering, Helium

Abstract

The stability and quench characteristics of a NbTi forced-cooled superconducting coil at the subcooled condition were investigated. The test coil was wound in a one-layer solenoid from a cable-in-conduit-type conductor of 1.5 kA at 7 T, whose total length was 34 m. It was installed in a background coil and tested between the subcooled condition below 4.5 K and the normal condition above 4.5 K. Stability, quench current, normal propagation velocity, and pressure rise during a quench of the subcooled coil were measured. The stability margin increased and the pressure rise during a quench decreased as the inlet coolant temperature was lowered. >

Published

1992

31. Development of forced-cooled superconducting coil for Large Helical Device

Author

Mamoru Shimada, O. Motojima, Kazuya Takahata, Yoshihiro Wachi, M. Takeo, Junya Yamamoto, T. Hamajima, M. Shibui, Toshiyuki Mito, S. Ioka, and K. Nakamoto

Subjects

Superconductivity, Materials science, Nuclear engineering, chemistry.chemical_element, Solenoid, Superconducting magnet, Electronic, Optical and Magnetic Materials, Large Helical Device, Nuclear magnetic resonance, chemistry, Electromagnetic coil, Electrical equipment, Electrical and Electronic Engineering, Current density, Helium

Abstract

A force-cooled superconducting coil has been studied for the Large Helical Device (LHD), which will be a main experimental apparatus of the Japanese National Institute for Fusion Science (NIFS). To achieve the main requirements for the LHD, a large-current, high-current-density NbTi cable-in-conduit-type conductor of 10 kA and 47 A/mm/sup 2/ at 8 T was developed. The test coil was wound in the form of a one-layer solenoid and tested at an operating current of 10 kA in a superposed field of about 7 T, at a hydraulic condition of 1.0 MPa, 4.5 K, and 10 g/s supercritical helium. The stability, normal propagation velocity, and pressure rise during a quench for the high-current-density case were also studied.

Published

1991

32. Low contact resistance polysilicon plug for halfmicron CMOS technology

Author

Y. Sugano and T. Hamajima

Subjects

Materials science, business.industry, Polysilicon depletion effect, Contact resistance, Electrical engineering, engineering.material, Dopant Activation, Polycrystalline silicon, Ion implantation, CMOS, Etching (microfabrication), Chemical-mechanical planarization, engineering, Optoelectronics, business

Abstract

A polycrystalline silicon (polysilicon) plug was developed for the planarization of high-aspect-ratio contact holes. Using this method, the authors realized a low contact resistance of 118 Omega on p-type and 57 Omega on n-type diffusion layers for 0.6- mu m hole diameter and 0.8- mu m hole depth. Moreover, a shallow source/drain junction of 0.15- mu m depth using rapid thermal annealing (RTA) was obtained. The key issues in this technology are the double (low- and high-energy) ion implantation of boron for the p-type plug and low-temperature insertion and subsequent deposition of polysilicon and dopant activation by RTA in the plugs and diffused layers at the same time. >

Published

2003

33. Application of partially bonded SOI structure to an intelligent power device having vertical DMOSFET

Author

T. Hamajima, H. Kikuchi, M. Takahashi, K. Kobayashi, and T. Kitano

Subjects

Fabrication, Materials science, Silicon, business.industry, Wafer bonding, Silicon on insulator, chemistry.chemical_element, Direct bonding, chemistry, Electronic engineering, Optoelectronics, Power semiconductor device, Power MOSFET, business, Electronic circuit

Abstract

In recent years, many types of Intelligent Power Devices (IPDs) have been developed. A key technology of developing the IPDs is the isolation between power device and control circuit. The isolation structures and its manufacturing methods are required to be more efficient and cost effective. We had been developed a low side switch IPD having Vertical DMOSFET (VDMOS) output by using poly-crystalline silicon sandwiched wafer bonding (PSB) technique. In this PSB structure, it is easy to achieve void-free bonding because the extremely flat poly-crystalline silicon (poly-Si) layer surface and the single-crystalline silicon (Si) substrate surface are bonded together. However, the PSB structure is still expensive. To reduce the fabrication cost, we have made a study of the direct bonding without poly-Si and proposed a new SOI structure named partially bonded (PB) structure. This paper reports the evaluation results that we applied the PB structure to a low side switch IPD for the first time.

Published

2002

34. An intelligent power device using poly-Si sandwiched wafer bonding technique

Author

T. Hamajima, K. Kobayashi, H. Kikuchi, M. Takahashi, and K. Arai

Subjects

Fabrication, Materials science, Silicon, Wafer bonding, business.industry, Doping, Electrical engineering, chemistry.chemical_element, Chip, chemistry, Optoelectronics, Power MOSFET, business, Electronic circuit, Diode

Abstract

A new simple isolation structure has been realized by using poly-Si sandwiched wafer bonding technique. We confirmed that the poly-Si layer enabled the bonded interface to be void-free and electrically perfect, and had the effect that it enabled the reverse recovery time of the parasitic diode of Vertical DMOSFET (VDMOS) to be short. In the new structure, the isolation capabilities were adequate to integrate 60 V VDMOS and control circuits on the same chip. Especially, the parasitic bipolar action has been suppressed. We evaluated an intelligent power device which uses this technique and have confirmed the availability of the new isolation structure.

Published

2002

35. New SOI structures for intelligent power ICs with vertical double-diffused MOS output devices

Author

K. Kobayashi, K. Arai, T. Hamajima, M. Takashi, and H. Kikuchi

Subjects

Fabrication, Materials science, business.industry, Wafer bonding, Doping, Electrical engineering, Optoelectronics, Silicon on insulator, Wafer, Solenoid, Direct bonding, Power MOSFET, business

Abstract

Intelligent power ICs with vertical double-diffused MOS (VDMOS) output devices are used for solenoid controlled applications. Many structures have been proposed for these power ICs. We have developed poly-Si sandwiched bonded (PSB) structures which use a Sb doped poly-Si and crystal-Si bonding technique. However these PSB structures have a high fabrication cost, because the fabrication process includes Sb diffusion into poly-Si layers. In this paper, we first propose an improved fabrication process of PSB structures without Sb diffusion into poly-Si layers. Second, we propose a new SOI structure with gaps fabricated by a wafer direct bonding technique. Both structures enable us to obtain low-cost intelligent power ICs with VDMOS.

Published

2002

36. [Clinical study on chlormadinone acetate alone followed by combination with LH-RH analogue for prostatic cancer: effects on lipid metabolism]

Author

M, Shimada, H, Uchida, T, Kasahara, K, Fuji, Y, Ogawa, H, Yoshida, T, Hamajima, N, Matsuda, T, Ikeuchi, Y, Kai, M, Hiramori, M, Hoshino, K, Inoue, and Y, Higaki

Subjects

Aged, 80 and over, Male, Antineoplastic Agents, Hormonal, Chlormadinone Acetate, Progesterone Congeners, Prostatic Neoplasms, Middle Aged, Prostate-Specific Antigen, Lipid Metabolism, Drug Administration Schedule, Apolipoproteins, Cholesterol, Humans, Drug Therapy, Combination, Testosterone, Leuprolide, Triglycerides, Aged

Abstract

Twenty-four previously untreated patients with a diagnosis of prostatic cancer were treated with chlormadinone acetate (CMA) alone (100 mg/day) for 4 weeks, and luteinizing hormone-releasing hormone analogue (LH-RHa) was added for the next 24 weeks. Marked decreases in blood LH, testosterone (T), prostate specific antigen (PSA), gamma-seminoprotein (gamma-Sm), and prostatic acid phosphatase (PAP) were observed after a single dose of CMA. T levels were significantly increased 3 days after the initial dose of LH-RHa, and did not return to the pretreatment level. There were no significant increases in any of the markers, nor were there any flare-up cases. Triglyceride levels, which were slightly elevated before the start of treatment, were significantly decreased 24 weeks after the completion of combined therapy. PSA was evaluated as partial response (PR) or better in 86.7% of the patients. Overall evaluation showed PR or better in 75.0% of the patients. These findings suggest that prior administration of CMA followed by combined administration with LH-RHa is useful in the treatment of prostatic cancer. No negative effects on lipid metabolism were observed at any time during the treatment period.

Published

1998

37. Effect of The Void-Fraction on the Property of the Nb3Sn Cable-in-Conduit Conductor

Author

S. Hanawa, H. Hanawa, T. Hamajima, Y. Takaya, A. Miyake, Y. Wadayama, T. Sasaki, M. Ono, Mamoru Shimada, Hirokazu Tsuji, Yoshihiro Wachi, Masataka Nishi, T. Takano, T. Fujioka, and K. Yamamoto

Subjects

Materials science, Electrical conduit, Electrical equipment, Fraction (chemistry), Composite material, Electric current, Porosity, Electrical conductor, Instability, Conductor

Abstract

The properties of Nb3Sn cable-in-conduit conductor were investigated experimentally with the void fraction and the cross-sectional shape as the parameters. As the result of a series of experiment, it was concluded that the critical void fraction value existed between 40% and 36% from both viewpoints of instability and critical current degradation. It was also found out that the circular cross-sectional conductors have better properties than the rectangular ones from the same viewpoints.

Published

1994

38. Development of an Online Tool to Scan Single Nucleotide Polymorphisms for Identification of Novel Minor Histocompatibility Antigens

Author

Marie Bleakley, Aiko Matsubara, Yasuo Morishima, S.R. Riddell, Yoshihisa Kodera, Taro Takahashi, Kiyotaka Kuzushima, J. Hikita, Seishi Ogawa, T. Yamamura, Nobuhiko Emi, Yoshiki Akatsuka, Yasuhito Nannya, and T. Hamajima

Subjects

Genetics, Transplantation, surgical procedures, operative, business.industry, Minor histocompatibility antigen, Medicine, Single-nucleotide polymorphism, Identification (biology), Hematology, business

Published

2011

39. Development of Ka-Class Superconducting Cables for AC Use (I)-Design and Fabrication

Author

T. Kumano, T. Hamajima, M. Yamaguchi, E. Suzuki, Mamoru Shimada, Kenji Tasaki, T. Fujioka, M. Takeo, M. Ono, Kazuo Funaki, Masataka Iwakuma, D. Itoh, and K. Yamafuji

Subjects

Superconductivity, Mandrel, Fabrication, Materials science, Bobbin, law, Eddy current, Development (differential geometry), Fibre-reinforced plastic, Composite material, law.invention, Conductor

Abstract

A large current AC superconductors were fabricated and tested. A strand with more than 20000 NbTi filaments was extruded down to 0.153 mm in diameter to produce filaments of 0.57 µm in diameter. The mixed matrix composed of Cu and CuNi was employed. A final conductor was made of 12 2nd-level sub-cables (6×7 strands) with a mandrel and was compressed on its four sides like a Rutherford type one. Four kinds of conductor were fabricated; one had an FRP mandrel, and the other three had a stainless steel mandrel with various compression rate. They were wound on FRP bobbins to form coils. Three of four coils were successfully operated up to about DC 5 kA.

Published

1990

40. Development of kA-Class Superconducting Cables for AC Use (II) Electromagnetic Properties

Author

K. Yamafuji, Kenji Tasaki, T. Hamajima, T. Fujioka, D. Itoh, Kazuo Funaki, M. Ono, Masataka Iwakuma, T. Kumano, M. Yamaguchi, M. Takeo, H. Suzuki, and Mamoru Shimada

Subjects

Superconductivity, Materials science, Condensed Matter::Superconductivity, Single coil, Development (differential geometry), Composite material, Electrical conductor, Astrophysics::Galaxy Astrophysics

Abstract

Large-current-capacity superconducting cables for AC use have been successfully fabricated and tested with regard to AC losses and quench behaviors. The final cables are compacted flat conductors made by triply twisting superconducting composites with NbTi filaments of 0.57 urn in diameter.

Published

1990

41. Primary Design of 40 Tesla Class Hybrid Magnet System

Author

K. Inoue, T. Takeuchi, T. Kiyoshi, K. Itoh, H. Wada, H. Maeda, K. Nii, T. Fujioka, Y. Sumiyoshi, S. Hanai, and T. Hamajima

Subjects

Materials science, Power consumption, Magnet, Mechanical engineering, Superconducting magnet, Electrical conductor

Abstract

The construction program of 40 T-class hybrid magnet is proceeding on the base of a 5-year plan starting from 1988 fiscal year. At the 1st stage we carried out a R & D study on the candidate materials for magnet conductors, such as Nb-tube processed (Nb, Ti)3Sn multifilamentary conductors and Cu-Al203 alloys. The primary design of a 40 T class hybrid magnet with associated facilities were also worked out. The design assumes generation of a back-up field of 15 T (Bmax of 15.7 T) at 4.2 K with a superconducting magnet with a room temperature bore of 400 mm. A water-cooled magnet is designed as a polihelix type one to generate incremental fields up to 25 T in a clear bore of 30 mm with power consumption of about 14 MW.

Published

1990

42. Development of a forced-cooling D-shaped superconducting coil by supercritical helium

Author

A. Miura, Hirotsugu Ohguma, Yoshihiro Wachi, T. Hamajima, T. Fujioka, T. Uchida, M. Yamaguchi, H. Shiraki, and S. Murase

Subjects

Superconductivity, Quantitative Biology::Biomolecules, Materials science, Tokamak, Physics::Medical Physics, chemistry.chemical_element, Superconducting magnetic energy storage, Superconducting magnet, Cryogenics, Electronic, Optical and Magnetic Materials, law.invention, chemistry, Electromagnetic coil, law, Condensed Matter::Superconductivity, Electrical equipment, Electrical and Electronic Engineering, Composite material, Helium

Abstract

A D-shaped 12 Tesla superconducting coil with forced cooling Nb 3 Sn superconductor is developed. Cryogenic stability and conduit stress analyses, result of winding test of copper dummy coil, add cooing system for the test coil are presented.

Published

1983

43. The spin polarised electronic band structure of chromium spinels: I. CuCr2S4

Author

K I Gondaira, F Ogata, Takeshi Kambara, J I Horikawa, and T Hamajima

Subjects

Valence (chemistry), Materials science, Condensed matter physics, Band gap, Fermi level, General Engineering, General Physics and Astronomy, Condensed Matter Physics, Semimetal, symbols.namesake, Band bending, symbols, Condensed Matter::Strongly Correlated Electrons, Direct and indirect band gaps, Electronic band structure, Quasi Fermi level

Abstract

The electronic band structure of a ferromagnetic chromium spinel CuCr2S4 is calculated self-consistently by using the discrete variational X alpha method. The main features of the band structure are: relatively narrow valence bands constructed mainly from the S 3p orbitals lie in the lower energy region; very narrow bands having mainly d character range over the intermediate energy region and a few d bands with only majority spin cross the Fermi level, which corresponds to the p-type metallic conduction observed; true conduction bands composed of Cu and Cr 4s, 4p orbitals lie in the higher energy region. The valency of each ion obtained from the self-consistent calculation is Cu1.3+(Cr1.55+)2(S1.11-)4 and the atomic spin-polarisation is 3.2, -0.32 and -0.27 for Cr, Cu and S, respectively.

Published

1982

44. Microstructure and phase relations for Ti-Mo-Al alloys

Author

G. Luetjering, T. Hamajima, and S. Weissmann

Subjects

Quenching, Materials science, Diffusion, Metallurgy, Alloy, General Engineering, Titanium alloy, Crystal structure, engineering.material, Microstructure, Phase (matter), Metastability, engineering, Physical chemistry

Abstract

The influence of aluminum additions to a Ti-7 at. pet Mo alloy on the phase equilibria was investigated. The microstructures of the alloys, Ti-7 pct Mo-7 pct Al and Ti-7 pct Mo-16 pct Al, were determined by light and electron microscopy. It was found that with increasing aluminum concentration the formation of the metastable w phase was suppressed. In the Ti-7 pct Mo-16 pct Al alloy the β phase decomposed upon quenching by precipitating coherent, ordered particles having a B2 type of crystal structure (β2). At low temperatures the equilibrium phases for this alloy were β + α+ β2, whereas at high temperature (850° to 950°C) the Ti3Al phase was in two-phase equilibrium with the β phase. The four-phase equilibrium which exists at a temperature of about 550°C involves the reaction β + Ti3Al ⇌ α + β2.

Published

1972

45. Importance of slip mode for dispersion-hardened β-titanium alloys

Author

S. Weissmann, T. Hamajima, and G. Lutjering

Subjects

Materials science, Alloy, Metallurgy, General Engineering, Titanium alloy, Slip (materials science), engineering.material, Microstructure, Volume fraction, Metallography, engineering, Elongation, Composite material, Chemical composition

Abstract

The mechanical properties of Ti-7 Mo-7 Al and Ti-7 Mo-16 Al (in at. pct) were correlated to the microstructure. The mechanical properties of the alloy with low aluminum content, consisting of α+ β phases, were dependent on the size of the α particles. Although the α phase is softer than the β phase, the small α particles, upon plastic deformation of the alloy, functioned as typical hard agents in a dispersion-hardened system and the volume fraction of the particles controlled the macroscopic ductility. A rapid strain-hardening behavior of the small α particles seemed to be responsible for this effect. Large α particles behaved like soft, incoherent particles, the volume fraction having little effect on the inherent ductility of the alloy. The two phase (β+ Ti3Al) microstructure of the alloy with high aluminum content resulting from high temperature aging to 900°C exhibited a yield stress of 130 ksi and an elongation to fracture of 5 pct. The ductility of this microstructure was controlled by the volume fraction of the Ti3Al particles inducing homogeneous slip. The favorable ductility properties of the microstructures with low Ti3Al volume fraction were lost if the slip mode was changed from homogeneous slip to planar slip.

Published

1973

46. Six-phase cylindrical linear pulse motor as linear oscillatory actuator

Author

T. Hamajima, S. Xiang, Hajime Yamada, and N. Nishizawa

Subjects

Physics, Continuous operation, Magnetic reluctance, Control theory, Thrust, Electrical and Electronic Engineering, Linear actuator, Linear motor, Actuator, Switched reluctance motor, Electronic, Optical and Magnetic Materials, Pulse (physics)

Abstract

A trial construction is described of a six-phase cylindrical VR type linear pulse motor which has been developed as being applicable to the linear actuator for the assist artificial heart. The VR (variable reluctance) type motor has a smaller thrust/input ratio than the PM (permanent magnet) type motor, but is superior in low noise and high-speed operation. The trial construction has made use of this advantage. According to the static thrust characteristic of the linear pulse motor, increase in the number of exciting phases to six is effective to suppressing the thrust regulation, resulting in stable operation. As to the kinetic characteritics, the capability of the motor to be driven at low frequencies leads to such a great reduction in iron loss as to make possible the continuous operation with a kinetic thrust of 160 [N].

Published

1987

47. Thermal equilibria and mechanical stability of Ti3 Al phase in Ti-Mo-Al alloys

Author

T. Hamajima and S. Weissmann

Subjects

Materials science, Alloy, Metallurgy, Metals and Alloys, Titanium alloy, chemistry.chemical_element, Crystal structure, engineering.material, Condensed Matter Physics, Microstructure, chemistry, Mechanics of Materials, Aluminium, engineering, Thermal stability, Crystallite, Phase diagram

Abstract

The phase diagram of the isopleth section of the Ti-7 at. pct Mo-Al system has been improved and expanded to include alloys up to 25 at. pct aluminum. The mechanical and thermal stability of alloys aged in the two-phase region, β +Ti3Al, was correlated to the microstructure. X-ray rocking-curve studies of the polycrystalline specimens showed that after 2 pct deformation of a Ti-7 Mo-16 Al alloy theβ matrix became preferentially plastically deformed, while the Ti3Al particles functioned as hard particles undergoing little lattice distortions.

Published

1975

48. DEVELOPMENT OF A FORCED-COOLED SUPERCONDUCTING COIL

Author

K. Nakanishi, M. Shimada, and T. Hamajima

Subjects

Superconductivity, Engineering, business.industry, Nuclear engineering, Electrical engineering, chemistry.chemical_element, Conductor, chemistry, Electromagnetic coil, Electrical equipment, Gas cooling, business, Superconducting Coils, Helium

Abstract

A 10 kA forced-cooled D-shaped superconducting coil made of a cable-in-conduit type Nb3Sn conductor with a bore of 0.71m × 0.87m has been developed and the performance test was carried out.

Published

1986

49. [A case of right juxtaposition of the atrial appendages, without cono-truncal anomaly]

Author

M, Konishi, W, Nobuoka, S, Asazuma, T, Iwamoto, T, Hamajima, E, Otabe, and H, Nakanoin

Subjects

Heart Defects, Congenital, Heart Septal Defects, Ventricular, Male, Humans, Infant, Heart Atria, Heart Septal Defects, Atrial

Published

1985

50. DESIGN CONSIDERATION AND REMOTE MAINTENANCE OF INTOR J-II

Author

T. Uchida, Y. Fukai, T. Honda, T. Hamajima, Y. Sawada, Noboru Fujisawa, Satoshi Nishio, T. Hiraoka, and N. Miki

Subjects

Engineering, Tokamak, law, business.industry, Nuclear engineering, Electronic engineering, business, law.invention

Abstract

The INTOR J-II is an experimental tokamak reactor designed by Japan in order to reduce the size and cost of the reactor which was developed at INTOR Phase I. Major plasma parameters of INTOR J-II are the same as those used in Phase I. The engineering and technology consideration for the INTOR J-II is described in this paper, in which the reactor structure and remote maintenance are mainly focused.

Published

1983