大事件

人物經(jīng)歷

2000年3月至2001年2月，在韓國(guó)國(guó)立全北大學(xué)(CBNU)做博士后研究員。^[1]

2001年3月至2002年3月，在韓國(guó)浦項(xiàng)產(chǎn)業(yè)科學(xué)技術(shù)研究院(RIST)做博士后研究員。

2002年7月至2004年11月，在加拿大不列顛哥侖比亞大學(xué)(UBC)做博士后研究員。

2004年12月回國(guó)到大連理工大學(xué)任教，歷任副教授、博士生導(dǎo)師、教授。分別入選遼寧省“百千萬(wàn)人才工程”（千人層次）及2008年度教育部新世紀(jì)優(yōu)秀人才支持計(jì)劃（NCET-08-0080）。

社會(huì)兼職

• 2011.11至今 中國(guó)機(jī)械工程學(xué)會(huì)鑄造分會(huì)理事

• 2017.07至今 遼寧省國(guó)際教育協(xié)會(huì)來華留學(xué)分會(huì)副會(huì)長(zhǎng)
• 2017.08至今 中國(guó)高等教育學(xué)會(huì)國(guó)際教育分會(huì)理事
• 2018.07至今 中國(guó)材料研究學(xué)會(huì)多孔材料分會(huì)理事^[1]

科學(xué)研究

• 材料基因工程；輕合金凝固控制和細(xì)晶強(qiáng)韌化研究；材料成型過程數(shù)值模擬與集成計(jì)算；超輕多孔金屬設(shè)計(jì)制備^[1][5]

• 復(fù)合場(chǎng)調(diào)控過程的界面愈合技術(shù), 2019/09/01, 進(jìn)行
• 輕質(zhì)高強(qiáng)鎂合金集成計(jì)算與制備, 國(guó)家重點(diǎn)研發(fā)計(jì)劃, 2016/07/15, 進(jìn)行
• ESP線感應(yīng)爐爐輥國(guó)產(chǎn)化研究, 2016/07/19-2016/10/31, 完成
• 連續(xù)擠壓輪的復(fù)合制造工藝研究, 2015/08/05-2015/10/31, 完成
• DUT－QLC合作項(xiàng)目, 2010/10/01, 完成
• 井式爐生產(chǎn)線緩冷技術(shù)開發(fā)研究, 2011/05/24-2016/05/23, 完成
• 曲軸熱處理工藝研究, 2012/01/20-2012/11/30, 完成
• 高強(qiáng)韌鋁合金螺旋槳開發(fā), 2012/07/01-2013/12/30, 完成
• 鎂合金復(fù)合外場(chǎng)及合金化細(xì)晶強(qiáng)韌化技術(shù)研究, 2009/05/01-2011/12/31, 完成
• 基于神經(jīng)網(wǎng)絡(luò)和粒子群算法的超輕鎂合金材料設(shè)計(jì)建模與優(yōu)化方法研究, 2008/12/31-2010/12/31, 完成
• 超輕鎂合金計(jì)算智能設(shè)計(jì)與成型工藝優(yōu)化研究, 2008/01/01-2010/12/31, 完成
• 變形鎂合金復(fù)合細(xì)化及連鑄成型技術(shù)研究, 2009/01/01-2011/12/31, 完成
• 電磁/超聲場(chǎng)作用下鎂鋰合金鑄坯成型基礎(chǔ)研究, 2006/12/31-2009/12/31, 完成
• 2008年度教育部新世紀(jì)優(yōu)秀人才支持計(jì)劃, 2008/12/31-2011/12/31, 完成
• 面向復(fù)雜零部件及模具制造的大型激光3D打印裝備研制及應(yīng)用, 2015/03/01, 完成
• 大軸重鐵路貨車滾動(dòng)軸承, 2014/12/15, 完成
• CAP1400核主泵鑄造殼體研制, 2014/04/30, 進(jìn)行^[2]

科研成果

負(fù)責(zé)在研國(guó)家自然科學(xué)基金和國(guó)家重點(diǎn)研發(fā)計(jì)劃子課題等項(xiàng)目，負(fù)責(zé)完成國(guó)家重點(diǎn)研發(fā)計(jì)劃課題、 國(guó)家863 計(jì)劃項(xiàng)目等40余項(xiàng)課題，基于材料基因組思想，提出輕合金組織性能預(yù)測(cè)模型，開發(fā)了工藝-組織-性能集成計(jì)算平臺(tái)，大大縮短了新材料新工藝研發(fā)周期、降低研發(fā)成本；開發(fā)了重載軸承、齒輪、車用曲軸等傳動(dòng)關(guān)鍵部件的固態(tài)相變工藝優(yōu)化技術(shù)，為企業(yè)創(chuàng)造顯著經(jīng)濟(jì)效益。已發(fā)表論文200余篇，其中 SCI /EI收錄 100余?篇，參編著作 2 部，獲遼寧省自然科學(xué)學(xué)術(shù)成果一等獎(jiǎng)等獎(jiǎng)項(xiàng) 5 項(xiàng)，授權(quán)發(fā)明專利 16 項(xiàng)，實(shí)用新型專利5項(xiàng)，軟件著作權(quán)1項(xiàng)。^[1]

總結(jié)如下：

【鎂合金凝固控制和細(xì)晶強(qiáng)韌化技術(shù)研究】

近年研究了電磁場(chǎng)作用對(duì)鎂合金凝固組織及性能的影響，同時(shí)對(duì)比研究了普通連鑄、電磁連鑄及強(qiáng)磁場(chǎng)作用下細(xì)化劑對(duì)鋁及鎂合金的細(xì)化效果，結(jié)果表明在磁場(chǎng)與細(xì)化劑的共同作用下的晶粒細(xì)化效果優(yōu)于二者單獨(dú)作用下的效果。針對(duì)超聲場(chǎng)作用下AZ31鎂合金的凝固組織變化研究表明，而超聲條件下得到的AZ31顯微組織中第二相變細(xì)變薄，晶粒變圓整和均勻，可見超聲場(chǎng)的空化作用和聲流效應(yīng)能夠改善鎂合金的顯微組織。該方向研究工作已得到國(guó)家高技術(shù)研究發(fā)展計(jì)劃(863)項(xiàng)目“鎂合金復(fù)合外場(chǎng)及合金化細(xì)晶強(qiáng)韌化技術(shù)研究”（2009AA03Z525）資助。

【超輕合金與多孔泡沫金屬制備基礎(chǔ)研究】

開展超輕型鎂合金的基礎(chǔ)研究，并提出將超輕合金設(shè)計(jì)與外場(chǎng)作用成型工藝相結(jié)合制備優(yōu)質(zhì)超輕材料的研究思路，充分利用超輕鎂鋰系合金的極低的密度（1.35g/cm3甚至更低）、優(yōu)良的變形加工性能、阻尼減振及抗高能粒子穿透等優(yōu)點(diǎn)，同時(shí)通過合金化與外場(chǎng)作用等手段細(xì)化晶粒、去除雜質(zhì)、減少偏析，提高超輕鎂合金的力學(xué)性能、改善耐熱耐蝕性能，以滿足航空、航天、汽車制造等工業(yè)對(duì)材料輕量化、高強(qiáng)韌的需求。該方向部分研究工作已得到教育部科學(xué)技術(shù)研究重點(diǎn)項(xiàng)目“電磁/超聲場(chǎng)作用下鎂鋰合金鑄坯成型基礎(chǔ)研究”（107031）、遼寧省自然科學(xué)基金項(xiàng)目“超輕鎂合金計(jì)算智能設(shè)計(jì)與成型工藝優(yōu)化”（20082172）和大連理工大學(xué)交叉學(xué)科建設(shè)專項(xiàng)基金“基于神經(jīng)網(wǎng)絡(luò)和粒子群算法的超輕鎂合金材料設(shè)計(jì)建模與優(yōu)化方法研究”資助。近期開展了泡沫金屬熔體發(fā)泡數(shù)值計(jì)算及相關(guān)工藝實(shí)驗(yàn)，旨在制備兼具結(jié)構(gòu)和功能材料特點(diǎn)的多孔金屬材料。

【輕合金高效連鑄技術(shù)及多場(chǎng)耦合模擬研究】

作為生產(chǎn)變形輕合金毛坯以及壓鑄重熔錠的主要手段，直冷連續(xù)鑄造技術(shù)已在鋁合金的生產(chǎn)中得到廣泛應(yīng)用，但用于生產(chǎn)鎂合金尚不普及。掌握鎂合金連鑄生產(chǎn)技術(shù)的少數(shù)幾個(gè)廠家也存在拉坯速度較慢、鑄錠有熱裂傾向、表面質(zhì)量欠佳等問題。針對(duì)鎂合金直冷連鑄錠進(jìn)行了數(shù)值模擬與實(shí)驗(yàn)研究，建立了可計(jì)算缺陷較易產(chǎn)生的連鑄初始態(tài)的熱場(chǎng)/應(yīng)力場(chǎng)模型，并采用工業(yè)實(shí)測(cè)數(shù)據(jù)進(jìn)行了對(duì)比修正，其結(jié)果可用來對(duì)連鑄工藝方案進(jìn)行優(yōu)化。該工作的創(chuàng)新點(diǎn)在于采用實(shí)驗(yàn)及數(shù)值計(jì)算手段確定固態(tài)及半固態(tài)下鎂及鋁合金的應(yīng)力應(yīng)變行為并建立能合并到數(shù)學(xué)模型中的本構(gòu)方程；建立連鑄錠二冷區(qū)沸騰曲線，精確化連鑄數(shù)學(xué)模型的邊界條件；建立熱裂判據(jù)并運(yùn)用到模型中以預(yù)測(cè)裂紋傾向；優(yōu)化連鑄工藝參數(shù), 提高鑄造速度并降低裂紋傾向。

【外場(chǎng)作用下輕合金成型及材料的組織性能演變機(jī)理研究】

電磁連鑄技術(shù)同時(shí)利用水冷模和電磁場(chǎng)來共同約束液態(tài)金屬成型, 電磁力的存在減輕了鑄造過程中液體金屬與結(jié)晶器壁的摩擦, 從而降低了鑄坯表層金屬的二次重熔傾向, 因此可減少摩擦痕及偏析瘤等表面缺陷的產(chǎn)生, 同時(shí)電磁力對(duì)液體金屬有攪拌作用, 從而使鑄錠組織均勻、晶粒細(xì)化。對(duì)鋁合金、銅合金、鋼的電磁鑄造研究結(jié)果表明，電磁連續(xù)鑄造方法對(duì)于改善合金鑄材的質(zhì)量非常有效，電磁場(chǎng)下成型的鑄坯其組織結(jié)構(gòu)及力學(xué)性能都大大優(yōu)于普通連鑄坯。通過同時(shí)采用水冷模和電磁場(chǎng), 有效提高寬結(jié)晶范圍輕合金的連鑄速度, 并改善鑄錠的表面質(zhì)量和微觀組織, 也減輕鑄錠中的偏析程度。該研究首次將直噴式有縫水冷模和電磁場(chǎng)結(jié)合起來運(yùn)用到輕合金直冷連鑄中，研究設(shè)計(jì)的旨在提高鑄速的電磁連鑄結(jié)晶器及分體式的冷卻水系統(tǒng)，不僅可用于鋁合金，也可推廣用于鎂合金連鑄。

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• [37]張興祿,Olga Komissarchuk,郝海.GASAR制備Al-5Cu多孔合金及其壓縮性能[J],特種鑄造及有色合金,2017,37(4):423-427
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• [43]郝海.GASAR Al-5%Cu多孔合金的制備及壓縮性能研究[J],特種鑄造及有色合金,2017,37(4):423-427
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• [83]郝海.Temperature Field Analysis of Directional Solidification of Multicrystalline Silicon[J],Materials Science Forum,2013,750(1):96-99
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• [99]房燦峰,郝海,張興國(guó).Study on Heat Treatment of Mg-8Gd-5Y-2Zn-0.5Zr Alloy under High Magnetic Fields[J],Journal of Iron and Steel Research International,2012,19(S1):1103-1106
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• [111]王少華,孟令剛,楊守杰,房燦峰,郝海,戴圣龍,張興國(guó).Al-Zn-Mg-Cu-Zr-0.5Er合金在鑄態(tài)和均勻化條件下的組織[J],中國(guó)有色金屬學(xué)報(bào)（英文版）,2011,21(7):1449-1454
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• [113]姚磊,房燦峰,張興國(guó),郝海,季首華.超聲振動(dòng)對(duì)Mg-8Li-3Al合金凝固組織及性能的影響[J],中國(guó)有色金屬學(xué)報(bào)（英文版）,2011,21(6):1241-1246
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• [115]王少華,張興國(guó),楊守杰,房燦峰,郝海,戴圣龍.時(shí)效制度對(duì)Al-7.1Zn-1.1Mg-1.6Cu-0.14Zr合金斷裂行為的影響[J],稀有金屬材料與工程,2011,40(3):453-456
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• [118]郝海.Modeling of nucleation and bubbles growth of metal foam by using micro-macro coupled Lattice Bolt...[A],2011,527-531
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• [120]郝海.Modeling of nucleation and bubbles growth of metal foam by using micro-macro coupled Lattic Boltz...[A],2011,527-532
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• [173]張興國(guó),房燦峰,郝海,季守華.Effects of Permanent Magnet Stirring on AZ61 Magnesium Alloy[A],2008
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• [175]郝海.工藝參數(shù)對(duì)超輕LA141合金板坯直冷連鑄溫度場(chǎng)的影響[J],機(jī)械工程材料,2008,32(12):91-94
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Magnesium Alloys

第一作者：郝海

合寫作者：Gao,Bo,Marcin,Golabczak,Xi-Shu,Wang,Berend,Denkena

出版單位：INTECH

出版日期：2011-08-01

是否譯成外文：否

字?jǐn)?shù)：82^[4]

• 一種用于研究金屬熔體凝固行為的水模擬裝置
• 一種提高鎂合金充型能力的醇基阻燃涂料及其制備方法
• 一種超聲場(chǎng)與細(xì)化劑復(fù)合細(xì)化AZ31鎂合金晶粒的方法
• 一種超聲波制備Al-Ti-C-Gd鎂合金晶粒細(xì)化劑的方法
• 一種電磁攪拌與機(jī)械攪拌復(fù)合作用的閉孔泡沫鋁制備方法
• 一種細(xì)化AZ31鎂合金晶粒的方法^[5]

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