热加工工艺
熱加工工藝
열가공공예
HOT WORKING TECHNOLOGY
2010年
6期
119-122,127
,共5页
李勇%左秀荣%陈蕴博%王淼辉
李勇%左秀榮%陳蘊博%王淼輝
리용%좌수영%진온박%왕묘휘
P20塑料模具钢%淬火%回火%微观组织%硬度
P20塑料模具鋼%淬火%迴火%微觀組織%硬度
P20소료모구강%쉬화%회화%미관조직%경도
P20 plastic die steel%quenching%tempering%microstructure%hardness
利用扫描电镜、金相显微镜、洛氏硬度计研究了P20塑料模具钢淬火及回火组织,并测定了硬度随淬火温度以及回火温度的变化.P20钢经830~920℃淬火得到板条马氏体.淬火后晶粒尺寸随淬火温度的升高有粗化的趋势但并不明显,直到890℃以后才明显粗化,因此,淬火温度应在830~890℃,以860℃为宜.P20钢硬度随回火温度升高而降低,碳化物析出增多并逐渐球化,马氏体板条边界逐渐变得模糊,有些板条合并变宽.P20钢经620℃×1 h回火后其硬度为32.8~35.8HRC,能满足预硬化硬度要求,而且经830~890℃淬火+620℃×1 h回火,硬度基本不随淬火温度变化,这将有利于工厂组织生产,因此最终选择预硬化工艺为860℃×30min淬火+620℃×1 h回火.
利用掃描電鏡、金相顯微鏡、洛氏硬度計研究瞭P20塑料模具鋼淬火及迴火組織,併測定瞭硬度隨淬火溫度以及迴火溫度的變化.P20鋼經830~920℃淬火得到闆條馬氏體.淬火後晶粒呎吋隨淬火溫度的升高有粗化的趨勢但併不明顯,直到890℃以後纔明顯粗化,因此,淬火溫度應在830~890℃,以860℃為宜.P20鋼硬度隨迴火溫度升高而降低,碳化物析齣增多併逐漸毬化,馬氏體闆條邊界逐漸變得模糊,有些闆條閤併變寬.P20鋼經620℃×1 h迴火後其硬度為32.8~35.8HRC,能滿足預硬化硬度要求,而且經830~890℃淬火+620℃×1 h迴火,硬度基本不隨淬火溫度變化,這將有利于工廠組織生產,因此最終選擇預硬化工藝為860℃×30min淬火+620℃×1 h迴火.
이용소묘전경、금상현미경、락씨경도계연구료P20소료모구강쉬화급회화조직,병측정료경도수쉬화온도이급회화온도적변화.P20강경830~920℃쉬화득도판조마씨체.쉬화후정립척촌수쉬화온도적승고유조화적추세단병불명현,직도890℃이후재명현조화,인차,쉬화온도응재830~890℃,이860℃위의.P20강경도수회화온도승고이강저,탄화물석출증다병축점구화,마씨체판조변계축점변득모호,유사판조합병변관.P20강경620℃×1 h회화후기경도위32.8~35.8HRC,능만족예경화경도요구,이차경830~890℃쉬화+620℃×1 h회화,경도기본불수쉬화온도변화,저장유리우공엄조직생산,인차최종선택예경화공예위860℃×30min쉬화+620℃×1 h회화.
P20 plastic die steel was treated at different quenching and tempering temperature. The quenching and tempering microstructure of P20 plastic die steel was investigated with scanning electronic microscope, metallurgical microscope and its hardness was measured with rockwell hardmeter. The experimental results show that the lath martensite is attained after the steel quenched from 830℃ to 920℃ and the grains of steel gradually increase with the elevation of quenching temperature, however the increase of the size is not obvious until the temperature is higher than 890℃. So quenching temperature can be set at 830~890℃ and 860℃ is a better choice. Tempering hardness decreases with the elevation of tempering temperature, precipitated carbide gradually spheroidizates and the amount gradually increases, martensite lath boundaries gradually become blurry and some laths are mergered and broadened with the elevation of tempering temperature. When 620℃ for 1 h is selected as tempering process, the tempering hardness is from 32.8 HRC to 35.8 HRC and it can satisfy pre-hardening hardness requirement. In addition, tempering hardness remains almost constant when the steel is quenched at 830~890℃ and tempered at 620℃, which is benefit for actual production in factory. So quenching at 860℃ for 30 min plus tempering at 620℃ for 1 h is finally selected as pre-hardening processes.
