Results 181 to 190 of about 4,507 (214)
Strength-Ductility Balance of HIP+HT-Treated LPBF GH3536 Alloy via In Situ EBSD: The Role of Annealing Twins. [PDF]
Materials (Basel)Zhang C, Cheng X, Lu J, Huang S, Chen B.
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Considering γ' and Dislocation in Constitutive Modeling of Hot Compression Behavior of Nickel-Based Powder Superalloy. [PDF]
Materials (Basel)Xie L +7 more
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Materials at High Temperatures, 1991
Publisher Summary This chapter explores about hot isostatic pressing (HIP). It is a materials fabrication process in which a starting powder or a premolded shape is simultaneously subjected to both high temperatures and high isostatic pressures, using a gas transfer medium.
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Publisher Summary This chapter explores about hot isostatic pressing (HIP). It is a materials fabrication process in which a starting powder or a premolded shape is simultaneously subjected to both high temperatures and high isostatic pressures, using a gas transfer medium.
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Materials & Design, 1985
Abstract The technology of hot isostatic pressing (HIP) — its equipment and process cycles — is summarised, and Battelle-Geneva's (BG's) development of HIP processed near-net shape powder metallurgy parts, metal/ceramic composites and ceramic/ceramic composites is described.
D. Richter, G. Haour, D. Richon
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Abstract The technology of hot isostatic pressing (HIP) — its equipment and process cycles — is summarised, and Battelle-Geneva's (BG's) development of HIP processed near-net shape powder metallurgy parts, metal/ceramic composites and ceramic/ceramic composites is described.
D. Richter, G. Haour, D. Richon
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Hot isostatic pressing and post-hot isostatic pressing of SiC-β-sialon composites
Materials Letters, 1996Abstract SiC-β-sialon two-phase composites with various compositions were formed by hot isostatic pressing (HIP) and treated by post-hot isostatic pressing (post-HIP). The bending strength of the HIP specimens reached the highest values when the Z-value (Si 6−Z Al Z O Z N 8−Z ) of the second phase, β-sialon, was 2.0, while the highest values of ...
Shaoming Dong +3 more
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Hot Isostatic Pressing of Alumina and Examination of the Hot Isostatic Pressing Map
Journal of the American Ceramic Society, 1990The hot isostatic pressing (HIP) of four alumina powders is studied in the temperature range 1100° to 1400°C, at 5‐ to 200‐MPa applied pressure, and for times ranging from 0.5 to 4 h. Density increases with increasing HIP temperature, pressure, and time; decreasing grain size results in increased density after HIP.
Keizo Uematsu +5 more
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1979
In this discussion of hot isostatic pressing (HIP) consideration will be limited to systems and processes which operate above 1000 °C and 1000 kg/cm2. The HIP process came into use in 1957 when Sailer, Hodge, Paprocki, and Dayton, all of the Battelle Memorial Institute, filed a U.S.
A. G. Bowles, D. E. Witkin
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In this discussion of hot isostatic pressing (HIP) consideration will be limited to systems and processes which operate above 1000 °C and 1000 kg/cm2. The HIP process came into use in 1957 when Sailer, Hodge, Paprocki, and Dayton, all of the Battelle Memorial Institute, filed a U.S.
A. G. Bowles, D. E. Witkin
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Yttrium α‐Sialon Ceramics by Hot Isostatic Pressing and Post‐Hot Isostatic Pressing
Journal of the American Ceramic Society, 1992Dense α‐sialon materials were produced by hot isostatic pressing (HIP) and post‐hot isostatic pressing (post‐HIP) using compositions with the formula Y x (Si 12–4.5 x
Alena Bartek +3 more
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