李强
激光材料加工与表面改性;机械合金化法制备纳米结构材料;电弧超声产生机制及其在等离子喷涂中的应用。
个性化签名
- 姓名:李强
- 目前身份:
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学术头衔:
博士生导师
- 职称:-
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学科领域:
材料科学
- 研究兴趣:激光材料加工与表面改性;机械合金化法制备纳米结构材料;电弧超声产生机制及其在等离子喷涂中的应用。
李强,1998年毕业于哈尔滨工业大学材料科学与工程学院金属材料及热处理专业,获博士学位。现为福州大学材料科学与工程学院教授、博士生导师、副院长。福建省"百千万人才工程"人选。
先后在哈尔滨工业大学、机械工业部第八设计研究院、中国有色金属工业总公司西北矿冶研究院、福州大学学习和工作,从事矿山凿岩工具的研制与开发、TiAl基金属间化合物、激光材料加工与表面改性、机械合金化以及热喷涂领域的研究与开发工作。目前的主要研究方向有:激光材料加工与表面改性;机械合金化法制备纳米结构材料;电弧超声产生机制及其在等离子喷涂中的应用。先后获省部级科技进步三等奖两项。在国内外刊物发表学术论文40余篇。
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362
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成果数
8
李强, Q. Li a, ∗, G.M. Songb, Y.Z. Zhang c, T.C. Lei b, W.Z. Chena
Wear 254 (2003): 222-229,-0001,():
-1年11月30日
A mixture of 30 vol.% SiC and 70 vol.%Ni-based alloy was clad onto steel substrate using laser multi-track overlapping process. Microstructure and dry sliding wear behavior of the overlapped cladding were studied. SiC particles completely dissociated during the processing. The microstructure of the cladding layer differs widely throughout the cladding layer, typical microstructure is composed of net-like dendrite M23(C,B)6, cellular-dendrite Ni31Si12, -Ni+Ni3B interdendritic lamellar eutectic, with very small amount of spherical graphite in the upper part of the cladding layer. Interestingly, significant amounts of net-like M23(C,B)6 carboboride dendrites as wear resistant skeleton were formed and uniformly dispersed in the cladding layer. Meanwhile, small graphite spheres scattered in the upper part of the cladding layer can also give contribution towards reducing friction as a self-lubricant. The novel microstructure, therefore, is beneficial for wear resistance. Friction and wear tests without lubricant show that the friction coefficients of the cladding layer is less than that of hardened steel, but the sliding distance characteristics of the friction coefficients of the cladding layer are in good agreement with that of the steel. There exists an approximately linear relationship between wear weights and sliding distances, and wear weight increases with an increase of sliding speed at the same sliding distance. Wear rate slightly increases with an increase of sliding distance, and the wear rate of the cladding layer is about one order less than that of the hardened steel.
Coating, Laser cladding, Microstructure, Friction, Wear, Silicon carbide
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【期刊论文】Comparison of laser-clad and furnace-melted Ni-based alloy microstructures
李强, Qiang Lia, U, Dawei Zhangb, Tingquan Leic, Chuanzhong Chend, Wenzhe Chena
Surface and Coatings Technology 137 (2001): 122-135,-0001,():
-1年11月30日
Optimization of process variables for laser cladding of Ni-based alloys was performed using the pre-placed powder method. The microstructure of laser clad, under optimal processing conditions, and furnace melted, under near equilibrium conditions, Ni-based alloys has been comparatively investigated by X-ray diffraction XRD., scanning electron microscopy (SEM). and transmission electron microscopy (TEM). techniques. Comparison of the microstructures of the laser-clad and furnace-melted alloys revealed a remarkable difference. The microstructure of the laser cladding is complex, composed of blocky CrB type chromium carbon borides, orthorhombic structured Cr7C3 type dendritic carbides, cellular-dendritic v-Ni solid solution, different interdendritic eutectics and amorphous phases along grain boundaries. The interdendritic eutecti cs, either v-NiqM C or M23C or v-NiqNi3B Ni2B., can form depending on the local composition. v-NiqNi3B stable solidification and v-NiqNi2B metastable solidification exist simultaneously because of the non-equilibrium rapid solidification involved during the laser cladding. In contrast, the microstructure of furnace-melted Ni-based alloy under near equilibrium solidification is composed of hexagonal structured Cr7C3 type carbides with hexagonal prism morphologies, near-equiaxed n-Ni solid solution dispersed with fine Ni3Si precipitates, n-NiqNi B near lamellar eutectic and near-spherical Ni B compound. v-Ni is the main microstructural constituent in both the laser clad and furnace melted alloys. From the grain size, it was evident that the former is one to two orders finer than the latter.
Laser cladding, Furnace melting, Nickel alloy, Coating, Microstructure
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李强, Q. Li a, *, T.C. Lei b, W.Z. Chen a
Surface and Coatings Technology 114 (1999): 278-284,-0001,():
-1年11月30日
A continuous-wave CO2 laser was used to clad a TiC particle-reinforced Ni-Cr-B-Si-C composite coating on to an AISI 1045 steel substrate. The microstructure of the clad was investigated by means of X-ray diffraction, scanning electron microscopy and transmission electron microscopy. It was found that partial dissolution of the TiC occurred on melting, and epitaxial growth of the remaining particles takes place by the precipitation of TiC upon cooling. This epitaxial TiC layer has an additional alloying effect by using elements such as chromium and silicon from the matrix. The pushing of TiC particles (TiCp) by the solidification front causes them to be unequally spaced. Besides the TiCp, the microstructure of the coating is a mixture of feather-like colonies and a small amount of (c-Ni+M23C6) eutectic. The feather-like colonies consist of CrB laths distributed in a c-Ni solid solution and grow radially from the TiC particles because of the large difference between the thermal properties of TiC and the Ni-Cr-B-Si-C matrix alloy.
Composite coating, Laser cladding, Microstructure, Nickel alloy, Titanium carbide
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【期刊论文】Microstructural characterization of WCp reinforced Ni–Cr–B–Si–C composite coatings
李强, Q. Li a, *, T.C. Lei b, W.Z. Chen a
Surface and Coatings Technology 114 (1999): 285-291,-0001,():
-1年11月30日
30 vol.% WCp reinforced Ni-Cr-B-Si-C composite coatings were deposited on AISI1045 steel by laser cladding. The typical microstructures and the phases present in the coatings were investigated using scanning and transmission electron microscopies. It was found that WC particulates partially dissolved on the surface of the particulates in the melt pool during the laser cladding. Upon cooling, the bar-like a-W2C, blocky b-W2C and quadrilateral g1M6-C carbides were formed from the laser-generated melt pool, and the final eutectic reaction resulted in the formation of c-Ni+Ni3B lamellar eutectic. The rapidly solidified microstructure of the laser melt is composed of c-Ni+Ni3B lamellar eutectic in which bar-like a-W2C, blocky b-W2C and quadrilateral g1-M6C carbides are distributed. The coating thus consists not only of thermodynamically stable, but also of metastable phases. The presence of the latter can be attributed to the nonequilibrium solidification arisen from the high cooling rates involved during the processing.
Laser cladding, Tungsten carbide, Nickel alloy, Composite coating, Microstructure
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【期刊论文】Mechanical properties of short carbon fiber-reinforced TiC composites produced by hot pressing
李强, Gui-Ming Song a, *, Qiang Li b, Guang-Wu Wen a, Yu Zhou a
Materials Science and Engineering A326(2002)240-248,-0001,():
-1年11月30日
In order to improve the strength and toughness of TiC materials, especially the elevated temperature strength so as to extend the applications in elevated temperature environment, TiC composites containing 20 vol.% short carbon fiber (Cf/TiC) were produced by hot pressing. The short carbon fibers were uniformly distributed in the TiC matrix by wet ball-milling mixing. The hot-pressing technique for Cf/TiC composites was optimized with respect to hot-pressing temperature and pressure, and the most suitable technique is vacuum sintering at 2100℃ under 30 MPa for 1 h. With carbon fiber addition, not only the room temperature strength and fracture toughness of TiC are remarkably increased, but the elevated temperature strength is increased as well. The flexural strength of the Cf/TiC composite is 593 MPa at room temperature and 439 MPa at 1400℃. The strengthening effect of the carbon fibers is estimated using a slightly modified role-of-mixture formulation, and the toughening effect is also calculated based on the toughening mechanisms of crack bridging, fiber pullout and crack deflection. The calculated results of the strength and fracture toughness of the composite agree well with the experimental results.
TiC composites, Mechanical properties, Carbon fiber, Hot pressing technique
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李强, 刘紫兰, 张钦钊, 黄向东
中国有色金属学报,2005,15(6):929~934,-0001,():
-1年11月30日
研究了WO3、Co3O4和石墨混合粉末经高能球磨活化后再分步进行还原和碳化反应制备超细WC-Co粉末的过程。结果表明:球磨30h后,粉末粒径达到70-100nm。450-700℃温度范围内球磨粉在流动H2和Ar混合气体中经2h还原时,随着还原温度的升高,W03还原反应顺序为WO3→WO2.9→W02.72→WO2→W,700℃时可实现完全还原;Co3O4在450℃完全还原为Co,随着温度的进一步升高和时间的延长,Co与W反应转变为C03W;最终还原产物由W、Co、Co。W和石墨组成;在700~1000℃温度范围内还原粉在流动Ar中碳化时,随着碳化温度的升高,碳化反应按W(Co3W)-Co6 W6C-Co2 W3 C-W2C-WC的顺序进行,在900℃下还原粉在2h内可完全碳化,得到WC颗粒尺寸约为200-300 nm的WC-Co复合粉末。
WC-Co, 高能球磨, 还原, 碳化
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李强, 张永忠, 李劲风, 林庆彬, 张钦钊, 刘紫兰
激光技术,2004,28(3):237~2410,-0001,():
-1年11月30日
使用激光多道搭接法在45#钢基底表面熔覆316L不锈钢粉末涂层,对比研究了激光涂层和对应商用棒材的微观结构及其分别在2mol NaCl, 1mol FeCl3 和0.5mol HCl溶液中的阳极极化腐蚀行为。结果表明,单层激光熔覆粉末涂层受基底钢材稀释的影响,涂层最终的微观结构由马氏体和极少量的奥氏体组成。激光熔覆粉末涂层和商用棒材在上述溶液中表现出相似的极化行为,阳极极化和阴极极化的超电位都遵循Tafel关系,表现出很好的钝化性能和点蚀抗力。与商用棒材相比,涂层材料的自腐蚀电流大、自腐蚀电位低、极化电阻小、抗腐蚀能力略有下降。
激光熔覆, 316L 不锈钢, 微观组织, 阳极极化
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【期刊论文】激光熔覆(WC+W2C)p/Ni基合金复合涂层的微观结构特征
李强, 雷廷权, 张永忠, 卢洪
材料科学与工艺,2002,10(1):5~10,-0001,():
-1年11月30日
运用XRD、SEM及显微硬度试验等手段研究了激光熔覆Co包铸造(WC+W2C)p增强Ni基台金复合涂层的微观组织特征,分析了co包铸态(Wc+W2c)p,在激光熔覆过程中的冶金行为.研究结果表明:在激光熔覆过程中,(Wc+w2c)p的Co包疆层完全熔化,(WC+W2C)p本身也发生部分溶解,其稳定性随w2c/wc比增大而降低;当熔池凝固时,(WC+W2C)p在涂层中的分布主要受激光熔池中存在的强烈对流和颗粒,凝固前沿相互作用所控制;依赖于局部成分,涂层中形成变成分的L-M6C(M=Co、W、Ni)型碳化物,优先分布在(Wc+w2c)p表面;涂层基体的典型组织由分布在-Ni+ M23C6沩主加硼化物Ni4B3、Ni3B和碳化物M7C3的伪多元共晶中的1-M6C组成。
激光熔覆, 铸造(, WC+, W2C), 颗粒, Ni基合金, 复合涂层, 微观组织
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