Porosity regrowth during heat treatment of hot isostatically pressed additively manufactured titanium components

Tammas-Williams S.; Withers R. I.; Todd I.; Prangnell P. B.

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Porosity regrowth during heat treatment of hot isostatically pressed additively manufactured titanium components

机译：热等静压增材制造的钛零件热处理过程中的孔隙再长

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X-ray computed tomography has been used to track the behaviour of individual pores found in selective electron beam melted additive manufactured titanium. Porosity was found to shrink below the detection limit of X-ray microtomography (<5 mu m) upon hot isostatic pressing. Spherical argon containing gas pores, which have a high internal gas pressure following hot isostatic pressing, have been found to progressively reappear and grow in proportion to their original as-built size during high temperature (beta-anneal) treatments, whereas larger irregular low pressure pores did not reappear. The implications of these observations in terms of additive manufacturing are discussed. (C) 2016 Elsevier Ltd. All rights reserved. This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/).

机译：X射线计算机断层摄影术已用于跟踪在选择性电子束熔化的添加剂制造的钛中发现的各个孔的行为。发现在热等静压下，孔隙率缩小到X射线显微断层照相术的检测极限（<5微米）以下。在高温（β退火）处理过程中，发现含有球形氩气的气孔在热等静压后具有较高的内部气压，并逐渐按其原始尺寸成比例地重新出现并生长，而较大的不规则低压毛孔没有再出现。这些意见的含义在增材制造方面进行了讨论。（C）2016 Elsevier Ltd.保留所有权利。这是CC BY许可（http://creativecommons.org/licenses/by/4.0/）下的开放获取文章。

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《Scripta materialia》 |2016年第null期|共5页
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Tammas-Williams S.; Withers R. I.; Todd I.; Prangnell P. B.;
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Additive manufacture; Selective electron beam melting (SEBM); Pores; Heat treatment; Hot isostatic pressing (HIPing);

机译：增材制造;选择性电子束熔化（SEBM）;孔;热处理;热等静压（HIPing）;

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1. Porosity regrowth during heat treatment of hot isostatically pressed additively manufactured titanium components [J] . Tammas-Williams S., Withers R. I., Todd I., Scripta materialia . 2016,第Null期

机译：热等静压增材制造的钛零件热处理过程中的孔隙再长
2. Additive manufacturing titanium components with isotropic or graded properties by hybrid electron beam melting/hot isostatic pressing powder processing [J] . E. Hernández-Nava, P. Mahoney, C. J. Smith, Scientific reports. . 2019,第1期

机译：通过混合电子束熔化/热等静压粉末加工增材制造具有各向同性或渐变特性的钛组分
3. The Effectiveness of Hot Isostatic Pressing for Closing Porosity in Titanium Parts Manufactured by Selective Electron Beam Melting [J] . Tammas-Williams Samuel, Withers Philip J., Todd Iain, Metallurgical and Materials Transactions, A. Physical Metallurgy and Materials Science . 2016,第5期

机译：选择性电子束熔炼钛零件热等静压压制孔隙的有效性
4. JUSTIFICATION AND MANUFACTURING QUALITY ASSURANCE FOR THE USE OF HOT ISOSTATICALLY PRESSED, REACTOR COOLANT SYSTEM COMPONENTS IN PWR PLANT [C] . J L Sulley, I D Hookham International conference on advances in nuclear power plants;ICAPP 2008 . 2008

机译：在压水厂中使用热等静压反应器冷却剂系统组分的合理性和制造质量保证
5. Hot isostatic pressing and heat treatment development of powder metallurgy beta gamma titanium aluminide alloys. [D] . Laurin, Daniel E. 2010

机译：粉末冶金βγ钛铝化物合金的热等静压和热处理技术开发。
6. Additive manufacturing titanium components with isotropic or graded properties by hybrid electron beam melting/hot isostatic pressing powder processing [O] . E. Hernández-Nava, P. Mahoney, C. J. Smith, -1

机译：通过混合电子束熔化/热等静压粉末加工来增材制造具有各向同性或渐变特性的钛组分
7. Porosity Regrowth During Heat Treatment of Hot Isostatically Pressed Additively Manufactured Titanium Components [O] . Tammas-Williams, Samuel, Withers, Philip, Todd, Iain, 2016

机译：热等静压压制钛合金零件热处理过程中的孔隙率再生
8. Mechanical Properties of Hot Isostatic Pressed p/M-Titanium for Helicopter Components [R] . Keinath, W., Tapavicza, M. 1981

机译：用于直升机部件的热等静压p / m钛的力学性能

Porosity regrowth during heat treatment of hot isostatically pressed additively manufactured titanium components

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