1)investment for titanium铸钛包埋材料
1.This research was based on knowledge of the foregoing material study of a self-made investment for titanium.本课题是前期自制铸钛包埋材料研究工作的继续,在前期材料学研究的基础上,综合考察自制包埋料及其钛铸件的多方面性能,探索自制铸钛包埋材料的铸造工艺及相关参数,为自制铸钛包埋材料的临床应用提供较完善的技工操作规范。
英文短句/例句
1.Research on Cast Technology of the Self-made Investment for Titanium and on Accuracy of the Dental Titanium Castings自制铸钛包埋材料铸造工艺与铸钛修复体铸造精度的研究
2.A castability study of a new investment material for titanium casting in different mold temperature新型铸钛包埋材料不同铸模温度对纯钛铸流率影响的研究
3.Influence of Content of α-Al_2O_3 Fine Powder on Properties of MgO-based Investment Materials Cast Tiα-Al_2O_3细粉含量对MgO系铸钛包埋材料性能的影响
4.THE INFLUENCE OF ZR CONTENT ON PROPERTIES OF Al_2O_3-BASED INVESTMENT MATERIALS金属锆粉含量对氧化铝质铸钛包埋材料性能的影响
5.Effect of Different ZrO_2 Based Investments on the Quality of Titanium Crown;不同配比含锆包埋材料对纯钛全冠铸造的影响
6.Research on the Improved FUS-invest Investment for Zirconium-oxide Titanium Crown and Bridge;锆系铸钛冠桥专用包埋材料的改进及其性状的研究
7.Study on Surface Reaction Layer of Titanium Cast with Three Type Investments对3种包埋料铸出的钛铸件表面反应层的研究
8.Effect of investment for titanium crown and bridge on reactive layer of castings纯钛冠桥铸造包埋料对铸件反应层的影响
9.The present status and development tendency of Ti casting for dentistry were surveyed from the view of Ti materials, machine and filling mold materials.从牙科铸钛用钛材、钛机、埋料等方面综述了牙科铸钛技术的现状及发展。
10.Development of Investment Material for the IPS-Empress2 Heat-Pressed Ceramic;IPS-Empress2热压铸造陶瓷专用包埋材料的研制
11.Effect of difference between thermal and setting expansion rate of the investments on the precision of castings包埋材料热膨胀率和凝固膨胀率变化对铸件铸造精度影响的研究
12.Study in Precision of Casting Crown with Bonded Investments in Different Proportion and Increased Temperature Means;包埋材料不同的配比和不同升温方法对铸造冠精密度影响的研究
13.The Experimental Study of the Influence of Different Investments on the Casting Properties of Ti-6Al-7Nb Alloy;不同包埋材料对Ti-6Al-7Nb合金铸造性能影响的实验研究
14.Research on Synthesis of TiO_2-Pillared Microporous Manganese Oxide;钛铸型锰氧微孔复合材料的合成研究
15.A Study on As-Cast NoduIar Cast Iron Containing Sb、Al and Ti in Crankshaft Production含锑、铝、钛铸态球墨铸铁曲轴材料的研究
16.Investigation on the Reciprocity of MgO-Al_2O_3 Based Investment and Ti Alloy;MgO-Al_2O_3系包埋料与钛合金相互作用的研究
17.Comparison of casting precision of two kinds of commercially available gypsum-bonded investment with different setting and thermal expansion characteristics2种石膏基包埋料对铸造精度影响的比较研究
18.Investigation Compressive Strength of Phosphate-bond investment;磷酸盐包埋材料抗压强度的实验研究
相关短句/例句
Ti investment铸钛专用包埋料
3)casting investment materials for dental use牙科铸造包埋材料
4)encasing material包埋材料
1.A kind of a special encasing material with good mechanical property and proper toughness was developed to encase and reinforce the part.论述了系统的工艺流程及其组成;研制了一种具有良好粘接性能和可切削性能的包埋材料;详细设计了断层截面图像采集系统。
5)Investment[英][?n'vestm?nt][美][?n'v?stm?nt]包埋材料
1.Effect of different ZrO_2 based investments on the fitness of titanium crown;钛铸造包埋材料中ZrO_2含量对纯钛铸造全冠适合度的影响
2.Research on the Improved FUS-invest Investment for Zirconium-oxide Titanium Crown and Bridge;锆系铸钛冠桥专用包埋材料的改进及其性状的研究
3.The Experimental Study of the Influence of Different Investments on the Casting Properties of Ti-6Al-7Nb Alloy;不同包埋材料对Ti-6Al-7Nb合金铸造性能影响的实验研究
6)investment materials包埋材料
1.At the end, this paper suggests that the development of investment materials and coating can be the key to the .简述了牙科材料的特性与要求,以及钛及其合金作为牙科材料的优点,综述了钛及其合金在牙科方面的应用研究现状和国内外的动态,介绍了目前钛制品生产主流的熔模铸造技术的工艺关键及其研究进展,指出包埋材料和涂料的发展对于钛及其合金作为牙科材料研究的重要性。
2.To studies the influence of Zr content on properties of Al2O3-based investment materials.通过改变金属锆粉的含量,研究了金属锆粉对氧化铝质铸钛包埋材料性能的影响,结果发现:随着金属锆粉含量的增加,氧化铝质铸钛包埋材料的流动性变差,经900℃热处理后包埋材料的耐压强度明显降低,热膨胀率呈增大趋势。
延伸阅读
齿科铸造包埋材料齿科铸造包埋材料dental casting investment material 齿科铸造包埋材料dental easti眼investmentmaterial在进行齿科合金铸造时,用于制作铸模的材料。根据铸造合金的种类及包埋材料的作用,一般分为以下3类。 ①中低熔点合金铸造包埋材料:主要成分为石英、方石英。结合剂为a一半水石膏。故又称石膏类包埋材料。适用于熔点在1000℃以下的合金铸造。 ②高熔点合金铸造包埋材料:包括磷酸盐包埋材料和硅胶包埋材料。磷酸盐包埋材料的主要成分为石英及方石英(占80一90%),结合剂为磷酸盐和氧化镁的混合物。硅胶包埋材料又分为正硅酸乙酷包埋材料和硅溶胶包埋材料。前者主要成分为石英、方石英,结合剂采用正硅酸乙醋;后者常以硅溶胶悬浊液(一般含有20一30%的5102)的形式与磷酸盐包埋材料合用。此类包埋材料适用于铸造熔点为1000℃以上的合金。 ③模型包埋材料:用于制作铸造模型的包埋材料。主要成分为石英及方石英,结合剂采用硬质石膏、超硬质石膏及磷酸盐。要求兼备模型材料和包埋材料的性质。 齿科铸造包埋材料可调和成均匀的糊状,具有适宜的固化时间,可使铸件表面具有一定的光洁度,具有适宜的膨胀系数,可补偿铸造合金的收缩,耐高温,有一定的强度,不与液态合金发生反应,有良好的透气性,铸造完成后不与合金粘附,易于清理,易于保存等。
