提高用于制造、能源、電子、國(guó)防和其他行業(yè)的合成材料的性能是俄亥俄州材料科學(xué)與工程部（MSE）許多研究人員的主要目標(biāo)之一。從新型生物醫(yī)學(xué)復(fù)合材料到防腐蝕，MSE研究項(xiàng)目的設(shè)計(jì)使我們實(shí)驗(yàn)室開發(fā)的突破可以應(yīng)用于工業(yè)過程，從而幫助工業(yè)每年節(jié)省數(shù)十億美元。這些程序包括：鋰離子和鈉離子電池電極復(fù)合材料的設(shè)計(jì)改進(jìn)生物醫(yī)學(xué)材料的發(fā)展與表征航空老化用鋁合金的腐蝕與防護(hù)新型氣、熱、生物傳感器的研制影響大規(guī)模制造的材料特性連續(xù)陶瓷復(fù)合材料的發(fā)展新興鋁鋰合金的腐蝕敏感性碳/碳復(fù)合材料高溫涂料的研制難熔金屬防護(hù)涂料的設(shè)計(jì)壓鑄鎂合金的疲勞性能

Improving the performance of synthesized materials used in manufacturing, energy, electronics, defense and other industries is one of the primary goals for many of the researchers in Ohio State’s Department of Materials Science and Engineering (MSE). From new biomedical composite materials to corrosion protection, MSE research programs are designed so breakthroughs developed in our laboratories can be applied to industrial processes, thereby helping industry save billions of dollars each year. These programs include:Design of electrode composites for Li-ion and Na-ion batteriesDevelopment and characterization of improved biomedical materialsCorrosion and protection of Al alloys in aging aircraft applicationsDevelopment of new gas, thermal and bio-sensorsProperties of materials that influence large-scale manufacturingDevelopment of co-continuous ceramic compositesCorrosion susceptibility of emerging Al-Li alloysDevelopment of high-temperature coatings for carbon/carbon compositesDesign of protective coatings for refractory metalsFatigue properties of die cast magnesium alloys