Jincheng Pang scite author profile

Jincheng Pang

5Publications

31Citation Statements Received

32Citation Statements Given

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Affiliations

Aerospace Research Institute of Materials and Processing Technology, Harbin Institute of Technology, Beijing Technology and Business University

Publications

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Ultrasonic Measurement of Stress in SLM 316L Stainless Steel Forming Parts Manufactured Using Different Scanning Strategies

2019

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Selective Laser Melting (SLM) technology is a new kind of additive manufacturing technology developed in in the last decade. Measurement and control of stress in metal forming layer is the basic problem of SLM forming parts. Critical Refraction Longitudinal (LCR) wave method was used to measure stress. The acoustic-elastic formulas for measuring stresses in SLM 316L stainless steel forming parts manufactured using meander, stripe, and chess board scanning strategies, respectively, were established based on static load tensile test. The experimental results show that the acoustic time difference of LCR wave in SLM specimen manufactured with 316L stainless steel increases linearly with the increase of stress when the tensile stress is less than critical stress (372 MPa, 465 MPa, and 494 MPa). Due to the inhomogeneous deformation of the anisotropic SLM forming layer and the dimple-micropore aggregation fracture mechanism, the acousto-elastic curve fluctuates up and down along the irregular curve when the tensile stress is larger than critical stress. The results of corroboration experiments show that nondestructive measurement of stress in SLM forming specimen can be realized by using LCR wave method. The scanning strategy can significantly affect the tensile strength and yield strength of SLM forming specimen. The stresses were all in tension stress state at the edge of the specimens, whatever scanning strategy was used. Sub-area scanning and scanning sequence of alternate and intersect were adopted, which can effectively reduce the stress in the SLM forming specimen. The overall stress values of SLM forming specimen manufactured using chess board scanning strategy were smaller than that using meander and stripe strategies. The distribution of stress were more uniform.

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Influence of raw material selection and fabrication parameters on microstructure and properties of micro-laminated TiB2–TiAl composite sheets

Cui¹,

Fan²,

Li³

et al. 2014

Materials Science and Engineering: A

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Mechanical properties of Ti–(SiCp/Al) laminated composite with nano-sized TiAl3 interfacial layer synthesized by roll bonding

Pang

Fan

Cui

et al. 2013

Materials Science and Engineering: A

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Effect of the welding position on weld quality when laser welding Inconel 617 Ni-based superalloy

Cheng

Pang

et al. 2021

Optics & Laser Technology

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Improved understanding on the reinforcement of low-temperature hydrogenated nitrile butadiene rubber composites by in situ polymerization of unsaturated metal methacrylate: influences of salt cation

Zhang

Pang

et al. 2016

RSC Adv.

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Jincheng Pang

Ultrasonic Measurement of Stress in SLM 316L Stainless Steel Forming Parts Manufactured Using Different Scanning Strategies

Influence of raw material selection and fabrication parameters on microstructure and properties of micro-laminated TiB2–TiAl composite sheets

Mechanical properties of Ti–(SiCp/Al) laminated composite with nano-sized TiAl3 interfacial layer synthesized by roll bonding

Effect of the welding position on weld quality when laser welding Inconel 617 Ni-based superalloy

Improved understanding on the reinforcement of low-temperature hydrogenated nitrile butadiene rubber composites by in situ polymerization of unsaturated metal methacrylate: influences of salt cation

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