粉末冶金材料科学与工程
粉末冶金材料科學與工程
분말야금재료과학여공정
Materials Science and Engineering of Powder Metallurgy
2015年
5期
771-776
,共6页
袁华%李周%许文勇%刘娜%张国庆
袁華%李週%許文勇%劉娜%張國慶
원화%리주%허문용%류나%장국경
喷射成形%高速钢%力学性能%组织
噴射成形%高速鋼%力學性能%組織
분사성형%고속강%역학성능%조직
spray forming%high speed steel%mechanical properties%microstructure
利用雾化沉积炉制备喷射成形 2060 高速钢沉积坯,经过锻造后再进行盐浴淬火和回火处理,研究喷射成形2060高速钢及其热处理后的组织与力学性能.结果表明:喷射成形2060高速钢沉积坯的表面较光洁,无明显的宏观偏析,晶粒较细小,晶粒尺寸约为20μm,沉积坯的相对密度在99.5%以上;沉积坯中主要存在M6C和 MC两种碳化物相,均匀弥散分布在晶界与晶内以及基体中,氧含量只有1.6×10?7左右.2060高速钢的抗弯强度随淬火温度升高而逐渐降低,淬火温度应低于1 210℃.在1 170~1 190℃下淬火时可获得抗弯强度≥3 000 MPa、硬度≥70 HRC的良好综合力学性能.
利用霧化沉積爐製備噴射成形 2060 高速鋼沉積坯,經過鍛造後再進行鹽浴淬火和迴火處理,研究噴射成形2060高速鋼及其熱處理後的組織與力學性能.結果錶明:噴射成形2060高速鋼沉積坯的錶麵較光潔,無明顯的宏觀偏析,晶粒較細小,晶粒呎吋約為20μm,沉積坯的相對密度在99.5%以上;沉積坯中主要存在M6C和 MC兩種碳化物相,均勻瀰散分佈在晶界與晶內以及基體中,氧含量隻有1.6×10?7左右.2060高速鋼的抗彎彊度隨淬火溫度升高而逐漸降低,淬火溫度應低于1 210℃.在1 170~1 190℃下淬火時可穫得抗彎彊度≥3 000 MPa、硬度≥70 HRC的良好綜閤力學性能.
이용무화침적로제비분사성형 2060 고속강침적배,경과단조후재진행염욕쉬화화회화처리,연구분사성형2060고속강급기열처리후적조직여역학성능.결과표명:분사성형2060고속강침적배적표면교광길,무명현적굉관편석,정립교세소,정립척촌약위20μm,침적배적상대밀도재99.5%이상;침적배중주요존재M6C화 MC량충탄화물상,균균미산분포재정계여정내이급기체중,양함량지유1.6×10?7좌우.2060고속강적항만강도수쉬화온도승고이축점강저,쉬화온도응저우1 210℃.재1 170~1 190℃하쉬화시가획득항만강도≥3 000 MPa、경도≥70 HRC적량호종합역학성능.
Spray formed 2060 HSS billets were deposited using a spray forming facility. The effects of hot forging and heat treatment on the microstructure and mechanical properties were studied. The results show that the spray deposited billets have good surface and can be hot forged directly. The as-sprayed preforms exhibit fine microstructure with no obvious macrosegregation, and of which the size of the grain is about 20um and the relative density is higher than 99.5%; There are two types of carbides consisting of M6C and MC which uniformly distribute throughout the matrix; The as-sprayed preforms reveal good cleanness with low oxygen content of about 1.6×10?7; The average bending strength of spray formed 2060 HSS increases with the decreasing of quench temperature; After quenching at 1 230℃,the hardness of spray formed 2060 HSS can be achieved HRC70.7; Quenching during 1 170~1 190℃ is favorable to gain good comprehensive mechanical properties with bending strength of higher than 3 000 MPa and hardness of higher than 70 HRC.
