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副高級(jí)專業(yè)技術(shù)崗位

首頁(yè) 人才隊(duì)伍副高級(jí)專業(yè)技術(shù)崗位

鄭衛(wèi)新

性別：男

職務(wù)：鎂質(zhì)膠凝材料課題組長(zhǎng)

職稱：副研究員

郵編：

傳真：

電郵：zhengweixin@isl.ac.cn

地址：

簡(jiǎn)歷

????鄭衛(wèi)新，男，博士，碩士研究生導(dǎo)師，鎂質(zhì)膠凝材料課題組組長(zhǎng)，九三學(xué)社中央委員會(huì)青年工作委員會(huì)委員，中國(guó)菱鎂行業(yè)協(xié)會(huì)科學(xué)技術(shù)委員會(huì)青年委員、專家委員會(huì)委員。從事鹽湖鎂資源綜合利、鎂質(zhì)膠凝材料開發(fā)和應(yīng)用方面的工作。曾獲青海省“高端創(chuàng)新人才千人計(jì)劃”、“自然科學(xué)與工程技術(shù)學(xué)科帶頭人”資助以及青海省科技進(jìn)步獎(jiǎng)三等獎(jiǎng)（3/8）、西寧市自然科學(xué)優(yōu)秀學(xué)術(shù)成果三等獎(jiǎng)（1/1）。迄今主持/參與省部級(jí)項(xiàng)目12項(xiàng)，國(guó)內(nèi)領(lǐng)先/先進(jìn)成果6項(xiàng)。發(fā)表學(xué)術(shù)論文60余篇，授權(quán)專利17項(xiàng)。

研究領(lǐng)域

鎂質(zhì)膠凝材料開發(fā)與應(yīng)用；鹽湖鎂資源綜合利用；固廢處理與高值轉(zhuǎn)化。

獲獎(jiǎng)及榮譽(yù)

[1]?青海省“昆侖英才·科技領(lǐng)軍人才”自然科學(xué)與工程技術(shù)學(xué)科帶頭人，?2023.12.

[2]?青海省“昆侖英才·青海省高端創(chuàng)新創(chuàng)業(yè)人才”培養(yǎng)拔尖人才，2019.10.

[3]?青海省科學(xué)技術(shù)進(jìn)步獎(jiǎng)三等獎(jiǎng)“基于鹽湖水氯鎂石和青海白云石為原料的鎂質(zhì)膠凝材料關(guān)鍵技術(shù)研發(fā)與工程應(yīng)用”, 2021.07.

[4]?西寧市自然科學(xué)優(yōu)秀學(xué)術(shù)成果三等獎(jiǎng)“Effects of fly ash, phosphoric acid, and nano-silica on the properties of magnesium oxychloride cement”, 2023.04.

代表論著

[1].?W. Zheng, J.M. Dong, Y. Li*, J. Wen,?C. Chang,?B. Li, Y. Li. Preparation technology and microstructural changes of low-activity magnesium oxide based on salt lake bischofite. Powder Technology,?2024, 433, 119248.

[2].?Q. Liu, J. Dong *, R. Li*, C. Chang, Y. Xu, J. Wen, W. Zheng, D. Wang, S. An. Preparation and properties of fatty acid/alcohol composite phase change mortar. Construction and Building Materials, 2024, 416, 135195.

[3].?T.?Liu, Y.?Zhou, W.?Zheng, C.?Chang, J.?Dong, J.?Wen*, X.?Zheng*. FeS/MgO-biochar composites for boosting the adsorption-photocatalytic degradation of RhB. Materials Science in Semiconductor Processing, 2024, 174, 108178.

[4].?Y.?Zhou,?J.?Wen*, J.?Dong,W.?Zheng,?C.?Chang,T.?Liu,?X.?Zheng*. Efficient adsorption-photocatalysis activity of ternary ZnOSm2O3-MgO co-modified biochar for dye removal. Appl Organomet Chem.?2024, e7349.

[5].?J. Dong, W. Zheng*, C. Chang, J. Wen, X. Xiao, Function and effect of borax on magnesium phosphate cement prepared by magnesium slag after salt lake lithium extraction. Construction and Building Materials, 2023, 366, 130280.

[6].?S. Li, S. Liu, Y. Du*, Q. Huang*, W. Qu, W. Zheng*. Effect of Mineral-Generated Lithium Slag on the Properties of Magnesium Oxychloride Cement. Crystals, 2023, 13,?513.

[7].?董金美, 文靜, 鄭衛(wèi)新*, 常成功, 肖學(xué)英, 安生霞. 鹽湖鎂渣的熱處理工藝及其對(duì)磷酸鎂水泥性能的影響. 材料導(dǎo)報(bào), 2023, 37(23): 22040072.

[8].?X.?Zheng, Y.?Shen, B.?Li*, Y.?Zhou, W.?Zheng, J.?Dong, C.?Chang, J.?Wen*. Bi-functional adsorption-photocatalysis activity of Ag2S-MgO/S-doped biochar heterojunction for cationic dye removal. Chemical Physics Letters, 2023, 833, 140908.

[9].?董金美, 劉啟元, 吳芳, 賈利蕊, 文靜, 常成功, 鄭衛(wèi)新, 肖學(xué)英*.脂肪酸類二元儲(chǔ)能材料的相變特性與配比調(diào)節(jié). 儲(chǔ)能科學(xué)與技術(shù), 2023, 12(2), 349-356.

[10].?Y.?Zhou, Z.?Liang, J.?Wen*, T.?Liu, J.?Dong, C.?Chang, X.?Zheng, W.?Zheng. Ternary Mg-B-S co-modified Ficus virens biochar for ultra-high adsorption?of rhodamine B in lab-scale and field-scale application: Adsorption behavior and mechanisms. Industrial Crops & Products, 2023, 194,?116310.

[11].?Z.?Liang, J.?Wen*, Y.?Zhou, T.?Liu , J.?Dong, W.?Zheng, C.?Chang, X.?Xiao, Q.?Liu, X.?Zheng*. Comparative investigation of BiOCl0.5X0.5 (X = F, Br, and I) heterojunctions for solar-light driven photodegradation of tetracycline hydrochloride. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2023, 656, 130477.

[12].?Q. Huang, W. Zheng*, J. Dong, J. Wen, C. Chang, and X. Xiao, Influences of different bischofite on the properties of magnesium oxychloride cement. Journal of Building Engineering, 2022. 57.

[13].?Q. Huang, W. Zheng*, X. Xiao*, J. Dong, J. Wen, C. Chang, A study on the salt attack performance of magnesium oxychloride cement in different salt environments. Construction and Building Materials, 2022, 320, 126224.

[14].?Q. Huang, W. Zheng*, Y.?Li, C.?Chang, J.?Wen*, J.?Dong*, X.?Xiao. The effect of doping high volume magnesium sulfate on properties of magnesium oxychloride cement. Crystals, 2022, 12:857.

[15].?J. Wen, J. Dong*, C. Chang, X. Xiao, W. Zheng*. Alkali?Silica Activity and Inhibition Measures of Concrete Aggregate in Northwest China. Crystals, 2022, 12: 1013.

[16].?X. Liu, J. Wen, C. Chang, W. Zheng, Q. Liu, X. Xiao, J. Dong*, Effects of calcination process of salt lake magnesium slag on the properties of magnesium oxysulfide cement. Advances in Cement Research, 2022, 34(5), 225-234.

[17].?劉啟元, 董金美, 常成功, 賈利蕊, 徐楊遠(yuǎn)翔, 趙昱鑫, 文靜, 肖學(xué)英, 鄭衛(wèi)新. 基于Python對(duì)脂肪酸/醇二元相變材料的理論計(jì)算. 材料導(dǎo)報(bào),2022,36(S2):449-453.

[18].?劉秀泉, 董金美, 常成功, 鄭衛(wèi)新, 劉啟元, 肖學(xué)英, 文靜. 原料配比對(duì)硫氧鎂水泥力學(xué)性能、物相和微觀形貌的影響. 鹽湖研究,2022,30(03):89-97.

[19].?Z.?Yan, P.?Yang, J.?Huang, Q.?Jia*, J.?Wen, J.?Dong,W.?Zheng, C.?Chang, H.?Wang, R.?Chen*. Promoting effect and mechanism of several inorganic salts on hydration?reaction of magnesium oxychloride cement at low temperature. Construction and Building Materials, 2022,317,126171.

[20].?Q. Huang, W. Zheng*, X. Xiao*, J. Dong, J. Wen, C. Chang, Effects of fly ash, phosphoric acid, and nano-silica on the properties of magnesium oxychloride cement. Ceramics International, 2021, 47(24), 34341-34351.

[21].?W. Zheng,?J. Dong, J. Wen,?C. Chang,?X. Xiao*. Effects of water-to-cement ratios on the properties of magnesium potassium phosphate cement prepared with lithium-extracted magnesium residue. App. Sci-Basel, 2021, 11: 4193.

[22].?Jing Wen, Weixin Zheng, Chenggong Chang, Pan Liu, Ying Li, Xueying Xiao, Qing Huang, Jinmei Dong*. The effect of nano-silica on the properties of magnesium oxychloride cement. Advances in Cement Research, 2021, 33(9):413-422.

[23].?C. Chang, J. Dong, X. Xiao, W. Zheng, J. Wen, Y. Li, Q. Huang, Y. Man, Long-term mechanical properties and micro mechanism of magnesium oxychloride cement concrete. Advances in Cement Research, 2020, 32(8), 371-378.

[24].?Q. Huang, Y. Li, W. Zheng, J. Wen, C. Chang, J. Dong, Y. Man, D. A, X. Xiao*, Y. Zhou, Investigation on the properties of magnesium oxychloride cement prepared with seawater. Advances in Cement Research, 2020, 32(8), 379-388.

[25].?劉盼, 肖學(xué)英, 常成功, 阿旦春, 李穎, 董金美,?鄭衛(wèi)新, 黃青, 董飛, 劉秀泉, 文靜. 基于正交試驗(yàn)和響應(yīng)面法優(yōu)化煅燒法提鋰副產(chǎn)物制備氯氧鎂水泥材料的工藝研究. 材料導(dǎo)報(bào),2020,?34(S2), 1308-1314.

[26].?董金美, 肖學(xué)英, 李穎, 文靜, 鄭衛(wèi)新, 常成功, 余紅發(fā). 原料質(zhì)量配比對(duì)鹽湖磷酸鉀鎂水泥性能和微觀結(jié)構(gòu)的影響. 材料導(dǎo)報(bào),?2020,?34(10), 10041-10045.

專利：

[1]?鄭衛(wèi)新;?文靜;?安生霞;?常成功;?董金美;?肖學(xué)英.?聚苯顆粒鎂基水泥層包覆系統(tǒng)及其包覆方法,?中國(guó)：ZL202010983258.3,?2024.02.27.

[2]?鄭衛(wèi)新;?肖學(xué)英;?董金美;?李穎;?文靜;?常成功.?一種固沙板的連接件及其制備方法,?中國(guó)：ZL202010676227.3, 2023.04.18.?

[3]?鄭衛(wèi)新;?肖學(xué)英;?常成功;?董金美;?文靜.?一種基于鎂水泥砂漿的固沙裝置及其制備方法、固沙方法,?中國(guó):ZL202010677118.3, 2023.05.12.

[4]?鄭衛(wèi)新;?肖學(xué)英;?董金美;?李穎;?文靜;?常成功.?一種固沙板的連接件及其制備方法.中國(guó):?ZL202010676227.3, 2023.04.18.

[5]?鄭衛(wèi)新;?肖學(xué)英;?常成功;?董金美;?文靜.?一種基于鎂水泥砂漿的固沙裝置及其制備方法、固沙方法.?中國(guó):ZL202010677118.3, 2023.05.12.

[6]?鄭衛(wèi)新;?肖學(xué)英;?董金美;?文靜;?李穎;常成功.?一種氯氧鎂水泥基粘接劑及其制備方法和應(yīng)用.?中國(guó):ZL201410727028.05, 2017.03.15.

[7]?鄭衛(wèi)新;?肖學(xué)英;?董金美;?李穎;?文靜;?常成功.?防沙障裝置.?中國(guó):ZL202021067019.5, 2020.06.11.

[8]?鄭衛(wèi)新;?常成功;?文靜;?肖學(xué)英;?安生霞;?董金美.?疏水性材料的二次浸潤(rùn)裝置及浸潤(rùn)除水系統(tǒng).?中國(guó):ZL202022043548.8, 2020.09.17.

[9]?李寶蘭;?鄭衛(wèi)新;?丁秀萍.?一種氯氧鎂水泥泡沫混凝土氣孔結(jié)構(gòu)模型制作及表征方法.?中國(guó):ZL201811401967.5, 2019.11.08.

[10]?李寶蘭;?鄭衛(wèi)新;?丁秀萍.?一種基于磷酸鎂水泥的氯氧鎂水泥泡沫混凝土氣孔結(jié)構(gòu)模型制作及表征方法.?中國(guó):ZL201811401968.X, 2019.11.08.

[11]?丁秀萍;?鄭衛(wèi)新;?李寶蘭.?一種基于硫氧鎂水泥的氯氧鎂水泥泡沫混凝土氣孔結(jié)構(gòu)模型制作及表征方法.?中國(guó):ZL201811401030.8, 2020.09.18.

[12]?丁秀萍;?鄭衛(wèi)新;?李寶蘭.?一種基于改性氯氧鎂水泥的氯氧鎂水泥泡沫混凝土氣孔結(jié)構(gòu)模型制作及表征方法.?中國(guó):ZL201811401963.7, 2021.10.26.

[13]?肖學(xué)英;?鄭衛(wèi)新;?常成功;?董金美;?李穎;?文靜.?一種固沙板模具及固沙板.?中國(guó):ZL202021055966.2, 2020.06.10.

[14]?肖學(xué)英;?鄭衛(wèi)新;?董金美;?李穎;?文靜;?常成功.?一種制作固沙板的流水作業(yè)系統(tǒng).?中國(guó):ZL202021059885.X, 2020.06.11.

[15]?肖學(xué)英;?鄭衛(wèi)新;?常成功;?董金美;?李穎;?文靜.?高強(qiáng)度固沙板及固沙裝置.?中國(guó):ZL202021066229.2, 2020.06.11.

[16]?肖學(xué)英;?鄭衛(wèi)新;?安生霞;?文靜;?常成功;?董金美.?聚苯顆粒鎂基水泥層包覆系統(tǒng).?中國(guó):ZL202022047845.X, 2020.09.17.

[17]?董金美;?鄭衛(wèi)新;?肖學(xué)英;?文靜;?常成功;?安生霞.?一種EPS保溫砂漿骨料、包覆裝置及保溫混凝土制品.?中國(guó):?ZL202022047779.6, 2020.09.17.

承擔(dān)科研項(xiàng)目情況

[1]?氯氧鎂水泥混凝土在高原溫差條件下的微觀結(jié)構(gòu)演變與宏觀特性聯(lián)動(dòng)機(jī)理，青海省應(yīng)用基礎(chǔ)研究項(xiàng)目，2021.01-2023.12，30萬(wàn)元，主持；

[2]?鹽湖氧化鎂膠凝機(jī)理研究，青海省高端創(chuàng)新人才培養(yǎng)計(jì)劃項(xiàng)目，2019.10-2022.09，20萬(wàn)元，主持；

[3]?鎂基復(fù)合聚苯顆粒材料的制備和性能研究，青海省高原綠色建筑重點(diǎn)實(shí)驗(yàn)室開放基金，2020.01-2021.12，8萬(wàn)元，主持；

[4]?鎂質(zhì)材料的物化機(jī)理研究，西寧市重大科技專項(xiàng)子課題，2019.09-2021.9，40萬(wàn)元，主持；

[5]?鎂質(zhì)墻體材料及構(gòu)件制備工藝研究，青海省科技成果轉(zhuǎn)化專項(xiàng)子課題，2018.07-2020.12，50萬(wàn)元，主持；

[6]?應(yīng)用精控技術(shù)獲得高品位富鋰礦工藝研究，青海省科技成果轉(zhuǎn)化專項(xiàng)子課題，2019.1-2021.12，50萬(wàn)元，主持；

[7]?利用鹽湖資源制備抗鹽鹵水泥研究與示范，青海省重點(diǎn)研發(fā)與轉(zhuǎn)化專項(xiàng)，2019.01-2021.12，300萬(wàn)元，參與。