特钢技术
特鋼技術
특강기술
SPECIAL STEEL TECHNOLOGY
2013年
1期
11-15
,共5页
郎宇平%张国信%方轶%陈海涛%屈华鹏
郎宇平%張國信%方軼%陳海濤%屈華鵬
랑우평%장국신%방질%진해도%굴화붕
NS1402合金%热加工%力学性能%晶间腐蚀
NS1402閤金%熱加工%力學性能%晶間腐蝕
NS1402합금%열가공%역학성능%정간부식
Alloy NS1402%Hot working%Mechanical properties%Intergranular corrosion
采用拉伸试验、热模拟和晶间腐蚀试验方法对铁镍基耐蚀合金NS1402的力学性能、热加工性能以及晶间腐蚀性能进行了研究.结果表明:NS1402合金热加工过程中,动态回复、再结晶发生的临界条件不易满足.其适宜的热加工温度区间为1050℃~1200℃.NS1402合金力学性能与合金元素含量、加工工艺以及热处理制度有关,加工工艺特别是锻造(轧制)变形比是影响力学性能的关键因素.不同冷却方式影响NS1402合金耐晶间腐蚀性能,水冷、空冷均能满足技术条件要求.对NS1402合金,C含量小于0.035%均能满足技术条件要求.NS1402合金既能通过ASTM A 26-02C法对晶间腐蚀的检测,也能通过ASTM G 28-02 A法的检测.采用前者更适宜评价其晶间腐蚀性能.
採用拉伸試驗、熱模擬和晶間腐蝕試驗方法對鐵鎳基耐蝕閤金NS1402的力學性能、熱加工性能以及晶間腐蝕性能進行瞭研究.結果錶明:NS1402閤金熱加工過程中,動態迴複、再結晶髮生的臨界條件不易滿足.其適宜的熱加工溫度區間為1050℃~1200℃.NS1402閤金力學性能與閤金元素含量、加工工藝以及熱處理製度有關,加工工藝特彆是鍛造(軋製)變形比是影響力學性能的關鍵因素.不同冷卻方式影響NS1402閤金耐晶間腐蝕性能,水冷、空冷均能滿足技術條件要求.對NS1402閤金,C含量小于0.035%均能滿足技術條件要求.NS1402閤金既能通過ASTM A 26-02C法對晶間腐蝕的檢測,也能通過ASTM G 28-02 A法的檢測.採用前者更適宜評價其晶間腐蝕性能.
채용랍신시험、열모의화정간부식시험방법대철얼기내식합금NS1402적역학성능、열가공성능이급정간부식성능진행료연구.결과표명:NS1402합금열가공과정중,동태회복、재결정발생적림계조건불역만족.기괄의적열가공온도구간위1050℃~1200℃.NS1402합금역학성능여합금원소함량、가공공예이급열처리제도유관,가공공예특별시단조(알제)변형비시영향역학성능적관건인소.불동냉각방식영향NS1402합금내정간부식성능,수랭、공랭균능만족기술조건요구.대NS1402합금,C함량소우0.035%균능만족기술조건요구.NS1402합금기능통과ASTM A 26-02C법대정간부식적검측,야능통과ASTM G 28-02 A법적검측.채용전자경괄의평개기정간부식성능.
@@@@Using tensile test, hot simulation and intergranular corrosion test, the mechanical property, hot work?ing property and intergranular corrosion property of alloy NS1402 were researched. The results showed that during hot working, the dynamic recovery and recrystallization were not easy to occur;the suitable temperature for hot work?ing is between 1 050℃and 1 200℃;the mechanical properties of alloy NS1402 is related to the contents of ele?ments, processing technology and heat treatment;heating process, especially the deformation ratio of forging (rolling) was the key factor for mechanical properties; the cooling method influenced the intergranular corrosion of alloy NS1402, which could be met both by the method of water cooling and air cooling. To meet the technical requirement, the content of carbon must be lower than 0.035wt%;NS1402 alloy could pass through the intergranular corrosion test according to both ASTM A 262-02 C and ASTM G 28-02 A and the former was more suitable for examining the in?tergranular corrosion of the mentioned alloy.
