Properties and Geometrical Dimensions of TA7 ELI High Pressure Pump Shell by Hot Isostatic Pressing Forming Through Powder Metallurgy Route

LU Zhengguan; JIANG Wenshan; ZHANG Jing; CUI Xiaoxiao; SHANG Xuewen; XU Lei

doi:10.16080/j.issn1671-833x.2023.18.054

您当前的位置：

首页 >

文章列表页 >

Properties and Geometrical Dimensions of TA7 ELI High Pressure Pump Shell by Hot Isostatic Pressing Forming Through Powder Metallurgy Route

更新时间：2025-10-30

- Properties and Geometrical Dimensions of TA7 ELI High Pressure Pump Shell by Hot Isostatic Pressing Forming Through Powder Metallurgy Route
- Aeronautical Manufacturing Technology Vol. 66, Issue 18, Pages: 54-60(2023)
- 作者机构：
  
  1. 中国科学院金属研究所师昌绪先进材料创新中心,沈阳,110016
  2. 北京航天动力研究所,北京,100076
  3. 中国科学技术大学,沈阳,110016
- 作者简介：
- 基金信息：
- DOI：10.16080/j.issn1671-833x.2023.18.054
  CLC：
- Published：2023
- 稿件说明：
移动端阅览
卢正冠，蒋文山，张静，崔潇潇，尚学文，徐磊. 粉末热等静压成形TA7 ELI高承压泵壳体的性能和尺寸控制[J]. 航空制造技术, 2023, 66(18): 54-60,73.

LU Zhengguan, JIANG Wenshan, ZHANG Jing, CUI Xiaoxiao, SHANG Xuewen, XU Lei. Properties and Geometrical Dimensions of TA7 ELI High Pressure Pump Shell by Hot Isostatic Pressing Forming Through Powder Metallurgy Route[J]. Aeronautical Manufacturing Technology, 2023, 66(18): 54-60,73.
卢正冠，蒋文山，张静，崔潇潇，尚学文，徐磊. 粉末热等静压成形TA7 ELI高承压泵壳体的性能和尺寸控制[J]. 航空制造技术, 2023, 66(18): 54-60,73. DOI： 10.16080/j.issn1671-833x.2023.18.054.

LU Zhengguan, JIANG Wenshan, ZHANG Jing, CUI Xiaoxiao, SHANG Xuewen, XU Lei. Properties and Geometrical Dimensions of TA7 ELI High Pressure Pump Shell by Hot Isostatic Pressing Forming Through Powder Metallurgy Route[J]. Aeronautical Manufacturing Technology, 2023, 66(18): 54-60,73. DOI： 10.16080/j.issn1671-833x.2023.18.054.

摘要

基于粉末热等静压近净成形技术，在930 ℃/120 MPa/3 h 的条件下开展了TA7 ELI（超低间隙）高承压泵壳体的成形研究，通过两批次粒度存在差异的粉末（粉末表面为胞晶形貌，D

为67 μm、74 μm）分析了制粉时的粒度波动对成形材料力学性能的影响，并结合有限元仿真手段开展了高承压泵壳体的粉末收缩规律研究。此外，根据高承压泵在液体火箭发动机中的实际服役情况，对近净成形的高承压泵毛坯进行解剖，分析了特征截面位置的显微组织及硬度分布情况。结果表明，粉末热等静压近净成形技术制备的TA7 ELI 合金力学性能达到锻件水平，粉末粒度波动对合金力学性能无显著影响，高承压泵壳体的显微组织均匀，特征截面的硬度值波动小，壳体内部流道关键尺寸实测结果与模拟预测结果的最大偏差为5.37%。

Abstract

TA7 ELI (extra low interstitial) high pressure pump shell was prepared by powder metallurgy nearnet shaping technology under the hot isostatic pressing parameters of 930 ℃/120 MPa/3 h. The effects of different batches of powder on the properties of TA7 ELI alloy were compared (surface morphology of the powder was cellular in shape

and their D

values are 67 μm and 74 μm)

and the powder shrinkage law of high pressure pump was studied using finite element method. The cutting of the formed high pressure pump shell was performed for dimensional analysis and microstructure observation. The results show that the mechanical properties of TA7 ELI alloy prepared by po

wder metallurgy is comparable to the properties of wrought alloy. The particle size deviation of two batches of powder shows no significant influence on tensile properties

the microstructure of high pressure pump shell is homogeneous

the hardness value of the characteristic section fluctuates little

and the maximum deviation between the measured results and the predicted results of the key dimensions of the flow channel inside the shell is 5.37%.

关键词

Keywords

references

Views

245

下载量

CSCD

Alert me when the article has been cited

提交

Tools

Publicity Resources

Near—Isothermal Forging of GH4169 AHoy

Mechanical Property Test and Stiffness Prediction of Multilayer–Multiaxial Interlock Woven Composites

Correlation of Cross-Sectional Geometry with Microstructure and Mechanical Properties of 7050–T7451 High-Strength Aluminum Alloy by Laser–Arc Hybrid Welding

Hot Isostatic Pressing and Influencing Factors of Inconel 718 Alloy Powder

Microstructure and Mechanical Performance of 7075–O Aluminum Alloy Friction Stir Welded Joints

Related Author

田军强

虢迎光

郭鸿镇

岳太文

姚泽坤

宁永权

GUO Ruiqing

ZHANG Yifan

Related Institution

红原航空锻铸工业公司

西北工业大学材料与工程学院

School of Textile Science and Engineering, Tiangong University

Ministry of Education Key Laboratory for Advanced Textile Composite Materials, Tiangong University

Aerospace Research Institute of Materials & Technology

The platform construction and operation are provided by Beijing Founder electronics co., LTD 京ICP备09064830号-19 京公网安备11010802024621
It is recommended to read the content of this site in Chrome&IE9+. Please switch to extreme mode in browser 360.
Cookies We use cookies to help provide and enhance our service and tailor content. By continuing, you agree to the use of cookies.
Total Visits：34412 Visits Today：359

⁰