Your search keyword '"M.J. Lamm"' showing total 8 results

1. Design and fabrication issues affecting the field quality of SSC collider dipole magnets built at Fermilab

Author

W. Koska, James Strait, Joseph DiMarco, P.O. Mazur, R.W. Hanft, J. Kuzminski, S.W. Delchamps, Toru Ogitsu, T.S. Jaffery, Masayoshi Wake, M.J. Lamm, and J.C. Tompkins

Subjects

Physics, Electromagnet, Physics::Medical Physics, Superconducting magnet, Electronic, Optical and Magnetic Materials, law.invention, Superconducting Super Collider, Nuclear physics, Dipole, Nuclear magnetic resonance, law, Electromagnetic coil, Magnet, Fermilab, Electrical and Electronic Engineering, Magnetic dipole

Abstract

Dipole magnets for the R&D of SSC were built and tested at Fermilab. The magnetic field properties were studied using short models and full scale models. Effect of coil size variation, insulation material, shimming and eddy current are discussed. >

Published

1994

2. Quench behavior of 1.5 m model SSC collider dipole magnets at Fermilab

Author

M. Winters, W. Kinney, W. Koska, S.A. Gourlay, Masayoshi Wake, M.J. Lamm, J.A. Carson, K. Coulter, R. Sims, R. Bossert, S.W. Delchamps, James Strait, and T.S. Jaffery

Subjects

Physics, Physics::Instrumentation and Detectors, Particle accelerator, Superconducting magnet, Electronic, Optical and Magnetic Materials, law.invention, Superconducting Super Collider, Nuclear physics, Dipole, law, Magnet, Fermilab, Electrical and Electronic Engineering, Collider, Yoke

Abstract

The quench behaviors of 10 model dipole magnets for the Superconducting Super Collider (SSC) have been studied. Horizontally split yoke, vertically split yoke, and the latest 50 mm diameter design were compared with regard to the quench characteristics. The excitation results showed a good progress of the R&D program. SSC magnets can now be built with no training to the required field of 6.65 T at 4.3 K. >

Published

1992

3. Mechanical behavior of Fermilab-built 1.5 m model SSC collider dipoles

Author

W. Kinney, James Strait, W. Koska, J.A. Carson, M. Winters, T.S. Jaffery, Masayoshi Wake, M.J. Lamm, K. Coulter, R. Sims, S.W. Delchamps, S.A. Gourlay, and R. Bossert

Subjects

Physics, Electromagnet, Tension (physics), Shell (structure), Superconducting magnet, Mechanics, Electronic, Optical and Magnetic Materials, law.invention, Superconducting Super Collider, Nuclear magnetic resonance, Electromagnetic coil, law, Magnet, Electrical and Electronic Engineering, Strain gauge

Abstract

Several model SSC (Superconducting Super Collider) dipole magnets (50-mm aperture, 1.5-m magnetic length) have been built and tested at Fermilab. These magnets are instrumented with strain gauges to measure stresses in the coil, the cold mass shell, and the coil end clamp assembly. Measurements are made of these quantities during assembly, cooldown, excitation, and warmup. The collar vertical deflection with prestress and the shell azimuthal tension agree quantitatively with design expectations. Coil prestresses within the desired range have been achieved without pole shims. Prestress loss with cooldown compares favorably with 40-mm models. Most of the axial I*B force is transmitted to the shell via collar-yoke-shell friction, and not by compressive loading of the coil end. The yoke parting plane gap remains closed to well above the operating point, and end clamp deflections are >

Published

1992

4. Tests of Fermilab built 40 mm aperture full length SSC dipole magnets

Author

S.A. Kahn, J.G. Cottingham, R.W. Hanft, S.A. Gourlay, W. B. Sampson, P.O. Mazur, Joseph Muratore, R. P. Shutt, R. Schermer, P. Wanderer, J.C. Tompkins, J. Herrera, M. Rehak, M. Kuchnir, D.F. Orris, H. Zheng, M. Puglisi, A.K. Ghosh, Z. Wolf, Paul M. Mantsch, P. Radusewicz, A. Greene, T. Bush, Masayoshi Wake, M.J. Lamm, J.A. Carson, P.A. Thompson, R.M. Scanlan, G. Ganetis, G.H. Morgan, C. Goodzeit, E. H. Willen, Joseph DiMarco, J. Kuzminski, J. Royet, C. Taylor, Ramesh Gupta, Toru Ogitsu, A. Devred, W. Koska, Y. Yu, M. Bleadon, M. Garber, James Strait, E.P. Rohrer, A. Prodell, R. Coombes, E. Kelly, S.W. Delchamps, and R. Bossert

Subjects

Materials science, Electromagnet, Mechanical engineering, Particle accelerator, Superconducting magnet, Electronic, Optical and Magnetic Materials, law.invention, Superconducting Super Collider, Nuclear magnetic resonance, Electromagnetic coil, law, Magnet, Electrical equipment, Fermilab, Electrical and Electronic Engineering

Abstract

Several 40-mm-aperture, 17-m-long dipoles have been built by Fermilab as developmental prototypes for the Superconducting Super Collider (SSC). These magnets have an external inner-outer coil splice design, a collet style end clamp assembly, a new, analytically designed minimum stress coil end design, and a new insulation system which does not employ shims or 'shoes'. In addition, the magnets were built using production-style tooling. The magnets were tested at the Fermilab Magnet Testing Facility. Quench testing and mechanical measurement results are presented and analyzed with emphasis on the new design and fabrication features of these magnets. The performance of these magnets was very good from a quench and mechanical behavior standpoint. The magnets did not exhibit excessive training behavior and only one training quench was below the nominal operating current. The coil prestress remained positive to >7 T in both magnets and most of the quenches originated in the high field region of the pole turn. >

Published

1992

5. Construction experiences with SSC collider dipole magnets at Fermilab

Author

R. Bossert, H. Fulton, K. Coulter, M. Gordon, S.W. Delchamps, K. Ewald, R. Sims, N. Hassan, Masayoshi Wake, M.J. Lamm, M. Winters, W. Koska, James Strait, J. S. Brandt, I. Gonczy, and J.A. Carson

Subjects

Physics, Electromagnet, Mechanical engineering, Particle accelerator, Superconducting magnet, Electronic, Optical and Magnetic Materials, law.invention, Superconducting Super Collider, Nuclear physics, law, Electromagnetic coil, Fermilab, Electrical and Electronic Engineering, Collider, Yoke

Abstract

Full length and short model SSC (Superconducting Super Collider) 50 mm bore dipoles are being built and tested at Fermilab. The mechanical design of these magnets has been determined from experience with the construction of previous superconducting magnets. Construction experience includes coil fabrication, ground insulation, instrumentation, collaring, and yoke assembly. Fabrication techniques are explained, and construction problems and their solutions are reviewed. The relationship of short to long model construction is discussed. >

Published

1992

6. Magnetic field measurements of 1.5 meter model SSC collider dipole magnets at Fermilab

Author

K. Coulter, W. Kinney, S.W. Delchamps, M. Bleadon, J.P. Ozelis, Joseph DiMarco, W. Koska, James Strait, Masayoshi Wake, M.J. Lamm, T.S. Jaffery, and R.W. Hanft

Subjects

Physics, Electromagnet, Physics::Instrumentation and Detectors, Superconducting magnet, Electronic, Optical and Magnetic Materials, law.invention, Magnetic field, Superconducting Super Collider, Nuclear physics, Dipole, Electromagnetic coil, law, Magnet, Electrical and Electronic Engineering, Magnetic dipole

Abstract

Magnetic field measurements have been performed at Fermilab on 1.5 m magnetic length model dipoles for the Superconducting Supercollider (SSC). Harmonic measurements are recorded at room temperature before and after the collared cell is assembled into the yoke and at liquid helium temperature. Measurements are made as a function of longitudinal position and excitation current. High field data are compared with room temperature measurements of both the collared coil and the completed yoked magnet and with the predicted fields of both the body of the magnet and the coil ends. The effects of yoking and cold testing agree well with predictions. One of the two cold-tested dipoles satisfies the SSC specification for sextupole/decapole. >

Published

1992

7. Measurement of time dependent fields in high gradient superconducting quadrupoles for the Tevatron

Author

T.S. Jaffery, S.A. Gourlay, M.J. Lamm, and K. Coulter

Subjects

Physics, Rutherford cable, Electromagnet, Tevatron, Superconducting magnet, Electronic, Optical and Magnetic Materials, Magnetic field, law.invention, Nuclear physics, law, Magnet, Quadrupole, Electrical and Electronic Engineering, Quadrupole magnet

Abstract

Magnetic field measurements have been performed on prototype and production magnets from two high-gradient superconducting quadrupole designs. One design is a double-shell quadrupole with 36-strand Rutherford cable. The other design is a single-shell quadrupole with five individually insulated monolithic strands connected in series. These magnets have similar bore diameters and cable dimensions. However, there are significant differences between the two designs, as well as differences between prototype and production magnets within each design, with regard to Cu-to-superconductor ratio, filament diameters, and filament-spacing-to-strand-diameter ratio. The time dependence at fixed currents of the measured magnetic field is discussed.

Published

1991

8. Tests of full scale SSC R&D dipole magnets

Author

G.H. Morgan, E. Kelly, A. Greene, R. Lundy, Paul M. Mantsch, J. Peoples, R. P. Shutt, M. Chapman, A. Devred, R. Schermer, P. Wanderer, A.K. Ghosh, M. Gerber, E. H. Willen, W. Schneider, R. Meuser, R. Scanlan, J. Herrera, P. Dahl, B.C. Brown, J. Rechen, R. Royer, A.D. McInturff, W. B. Sampson, C. Goodzeit, C. Taylor, C. Peters, J. Kaugerts, J. Zbasnik, M.J. Lamm, James Strait, A. Prodell, William S. Gilbert, P.A. Thompson, G. Ganetis, M. Kuchnir, J.R. Orr, J.G. Cottingham, J. C. Tompkins, R.W. Hanft, P.O. Mazur, S.A. Kahn, and S. Caspi

Subjects

Physics, Electromagnet, Superconducting magnet, Electronic, Optical and Magnetic Materials, Computational physics, law.invention, Superconducting Super Collider, Dipole, Nuclear magnetic resonance, Electromagnetic coil, law, Magnet, Electrical and Electronic Engineering, Magnetic dipole, Excitation

Abstract

Four full-scale SSC (Superconducting Super Collider) research and development dipole magnets, incorporating successive mechanical design improvements, have been quench-tested. Three of the magnets are heavily instrumented with sensors to measure their mechanical behavior and verify the effectiveness of the mechanical improvements and with multiple voltage taps to locate the origin of quenches. The last two magnets of this series reach the SSC design operating field of 6.6 T in two or fewer quenches. Load cells and motion sensors show that in these two magnets the azimuthal clamping stress is higher at zero current and drops more slowly with excitation that in previous long magnets, and that the axial motion of the coil upon excitation has been greatly reduced. Quenches are found to originate preferentially in several locations, suggesting other design improvements. >

Published

1989