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Effect of Liquid Hot Isostatic Pressing on Structure and Mechanical Properties of an Aluminum Alloy

机译：液体热等静压对铝合金组织和力学性能的影响

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The effect of liquid hot isostatic pressing (LHIP) on microstructure and mechanical properties of a high-strength cast Al-6Zn-2Mg-0.5Fe-0.7Ni alloy was examined. LHIP eliminates shrinkage porosity that highly improves strength and fatigue limit. Yield stress (YS) and ultimate tensile strength (UTS) in T6 condition increased from 135 to 470 MPa and from 410 to 510 MPa, respectively. Endurance limit on the base of 10~7 cycles increased from 95 to 140 MPa. However, a small number of gas pores with an average size less than 2 μrn retains. LHIP suppresses the crack initiation on coarse cavities. However, brittle intergranular fracture occurs in the hipped alloy through the breaking of eutectic phase Al_9FeNi. As a result, elongation-to-failure was of 1.2% and the fatigue strength is equal to one of AA356.02 alloy subjected to LHIP.

机译：研究了液体热等静压（LHIP）对高强度铸造Al-6Zn-2Mg-0.5Fe-0.7Ni合金的组织和力学性能的影响。 LHIP消除了收缩孔隙，从而极大地提高了强度和疲劳极限。 T6条件下的屈服应力（YS）和极限抗拉强度（UTS）从135 MPa分别增加到470 MPa和410 MPa到510 MPa。在10到7个循环的基础上，耐力极限从95 MPa增加到140 MPa。但是，保留了平均尺寸小于2μm的少量气孔。 LHIP可以抑制粗糙型腔上的裂纹萌生。然而，由于共晶相Al_9FeNi的断裂，在经锻压的合金中发生了脆性的晶间断裂。结果，断裂伸长率为1.2％，疲劳强度等于经受LHIP的AA356.02合金之一。

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《International conference on aluminium alloys 》|2014年|845-850|共6页
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Damir Tagirov; Vladislav Kulitskiy; Nikolay Belov; Rustam Kaibyshev;
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aluminum alloys; LHIP; mechanical properties; fatigue; casting;

机译：铝合金LHIP;机械性能疲劳;铸件;

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1. EFFECT OF LIQUID-PHASE HOT ISOSTATIC PRESSING ON THE PROPERTIES OF CAST ALUMINUM ALLOYS. PART 2. STRUCTURE AND PROPERTIES OF ALLOY AA356.02 OBTAINED BY CASTING INTO SAND MOLDS BY THE DISAMATIC PROCESS [J] . D. V. Tagirov, E. V. Ivanova, R. O. Kaibyshev Metal Science and Heat Treatment . 2012 ,第1a2期

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4. Effect of Liquid Hot Isostatic Pressing on Structure and Mechanical Properties of an Aluminum Alloy [C] . Damir Tagirov, Vladislav Kulitskiy, Nikolay Belov, International conference on aluminium alloys . 2014

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Effect of Liquid Hot Isostatic Pressing on Structure and Mechanical Properties of an Aluminum Alloy

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