用粉末烧结法制备了相对密度为0.2的开孔泡沫纯钛材料,并在室温20~600℃温度范围内,对其压缩性能进行了测试,并从理论上分析了其杨氏模量、弹性极限和屈服强度对温度的相依性.结果表明:该开孔泡沫材料在室温下表现出脆性泡沫材料变形断裂特征;在200℃以及更高温度下,该材料表现出塑性开孔泡沫材料变形特征,其应力-应变曲线分为3个阶段,即弹性阶段,平台阶段和压实阶段.开孔泡沫钛的杨氏模量、弹性极限和屈服强度随着温度的升高而减小,其对温度的相依性可分别表示为:E*=1.5217×109-5.988×105T,σ*ys=85.7-0.095T,σ*ys=99.1-0.16T+7.02×10-5T2.
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