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These synthesized materials are characterized by high selectivity but all of them have to be synthesized under high temperature and pressure, which needs high-cost energy.
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Much research has been undertaken for new anode materials in place of carbon to improve energy density for rechargeable lithium-ion batteries [1].
The Li-ion anodes derived from tin-based materials received considerable interest because the theoretical capacity of the tin-based material is 994 mAhg-1 and it can easily store 50% reversible lithium more than the carbon-based lithium intercalation materials in principle [2-8].
Carbonaceous materials experience small volume expansion for lithium intercalation (9% graphite) and have good cycling characteristics.
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All the materials were assumed as uniform and isotropy in this work, and the materials properties used in this calculation are listed in Ref. [9].
E is the Elastic Modulus of materials; σ0.2 is the Yielding Stress of materials, w is the work hardening coefficient of materials.
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Yin1,2,a, D.P.Wang3,b 1School of Materials Science and Engineering, Henan University of Science and Technology, Luoyang 471003, China 2Henan Key Laboratory of Non-ferrous Materials Science & Processing Technology, Luoyang, 471000, China 3School of Materials Science & Engineering, Tianjin University, Tianjin 300072，China, ayindanqing@mail.haust.edu.cn, bwangdp@tju.edu.cn Keywords: Ultrasonic peening treatment, Stress corrosion, Austenitic stainless steel, Fractography Abstract.
Figure 3 shows fracture of the UPT treated base materials.
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Table 3 Properties of the raw materials Materials Tensile strength /Gpa Tensile modulus /Gpa Density /g/cm3 Breaking strain /% UHMWPEF 2.611 92.177 0.97 3.55 GF 1.021 51.800 2.54 2.298 9800-05 0.079 — 1.2 3.2 Comparison.
Vijayarangan : Materials and Design.
Bader: Journal of materials science.
Li: Journal of Applied Polymer Science.
Bader: Journal of Materials Science.