加载速率对40Cr钢Ⅱ型动态断裂特性的影响  被引量：3

作　　者：范昌增 许泽建 何晓东 黄风雷[1] FAN Changzeng;XU Zejian;HE Xiaodong;HUANG Fenglei(State Key Laboratory of Explosion Science and Technology,Beijing Institute of Technology,Beijing 100081,China)

机构地区：[1]北京理工大学爆炸科学与技术国家重点实验室,北京100081

出　　处：《爆炸与冲击》2021年第8期23-32,共10页Explosion and Shock Waves

基　　金：国家自然科学基金(11772062,12072040)。

摘　　要：采用新型Ⅱ型动态断裂测试技术,对高强钢40Cr在高加载速率下的Ⅱ型动态断裂特性进行了测试研究。基于新设计的Ⅱ型动态断裂试样和分离式霍普金森压杆(split Hopkinson pressure bar,SHPB)技术,通过实验-数值方法确定了裂尖在加载过程中的应力强度因子曲线。采用应变片法确定了试样的起裂时间,最终得到40Cr的Ⅱ型动态断裂韧性值,并对其加载速率相关性和材料的失效机理进行了研究。结果表明,在1.08~5.53 TPa·m^(1/2)/s的加载速率范围内,40Cr的Ⅱ型动态断裂韧性基本表现为与加载速率成正相关的变化趋势。通过对试样断口形貌的分析,确定了材料的失效模式及机理,发现随着加载速率的增加,存在拉伸型失效向绝热剪切型失效模式转变的现象。40Cr high strength steel is often used in aerospace and national defense fields due to its excellent mechanical properties.Therefore,the research on the modeⅡdynamic fracture characteristics and failure mechanism of 40Cr high strength steel under high-speed impact has important scientific significance and engineering value.Experiments and numerical simulations were carried out to study the modeⅡdynamic fracture properties of 40Cr material under high loading rates.Based on the newly designed specimen and the novel test technique for modeⅡdynamic fracture,the experimental-numerical method was used to determine the dynamic stress intensity factor curve of the crack tip during the loading process.The crack initiation time of the specimen was obtained by the strain gauge pasted on the specimen,and the modeⅡdynamic fracture toughness of 40Cr was finally determined.The effect of loading rate and the failure mechanism of the material were also studied.The results show that within the present loading rate range of this work(1.08−5.53 TPa·m^(1/2)/s),the modeⅡdynamic fracture toughness of 40Cr presents a positive correlation with the loading rate.Through the analysis of the fracture morphology of the recovered specimen,it is found that there exists a transition from tensile failure mode to adiabatic shear failure mode with the increase of loading rate,and the critical loading rate is about 2.92 TPa·m^(1/2)/s.When KⅡd≤1.70 TPa·m^(1/2)/s,the 40Cr steel mainly exhibits brittle fracture;when KⅡd is in the range of 2.12−2.92 TPa·m^(1/2)/s,the fracture mainly presents the morphological characteristics of ductile fracture;when KⅡd≥3.19 TPa·m^(1/2)/s,the material failure is mainly caused by adiabatic shear bands.Brittle fracture is dominated by strain rate hardening mechanism,ductile fracture is dominated by strain/strain rate hardening and thermal softening mechanisms,and adiabatic shear fracture is dominated by thermal softening mechanism.

关 键 词：高强钢 加载速率 Ⅱ型动态断裂韧性 失效模式转变 

分 类 号：O346.1[理学—固体力学]