《新型耐火材料》(俄文)
2015,№6
1.含铅矿电热处理时镁铬耐火材料的使用特点及侵蚀性·············Бирюкова А.А.等,3~8;
2.热工窑炉内衬预热制度和耐火材料存放时间
对耐火材料砌体寿命的影响································Словиковский В.В.等,9~13;
3.耐火材料废料在二次利用时粉碎能力的研究·····················Кунадароглу Д.等,14~23;
4.氮化硅质可渗透前得材料的制备···········································Гилев В.Г.等,24~26;
5.热物理性能对回转窑耐火材料内衬不同结构的效率的影响·········Титов О.В.等,27~29;
6.多晶氧化物陶瓷烧结过程的强化·······································Бакунов В.С.等,32~36;
7.压力对不同成分煤沥青碳化的影响······························Трофимович М.А.等,37~42;
8.泥浆浇注发制备的多空可渗透陶瓷的成型特点····················Красный Б.Л.等,43~46;
9.用熔融石英高浓度陶瓷结合泥浆制备材料方面的研究(5)烧结对材料气孔率和强度的影响·································································Пивинский Ю.Е.等,47~55;
10.高温变形条件下燃烧制度下用二硅化钼合成硅化物陶瓷········Столин А.М.等,56~61;
11.用Al-Mg-合金化学分散法制备的细粉
合成金属陶瓷的工艺分析··········································Васин А.А.等,62~65;
12.热流对具有成型形貌的氧化物陶瓷表面上应力
不均匀性的影响························································Кузин В.В.等,66~68。
《新型耐火材料》(俄文)
2015,№7
1.ЕВРАЗ ЗСМК钢厂420吨鱼雷车的使用经验····························Шиянов В.В.等,3~5;
2.Y2O3含量不同的ZrO2-Y2O3纳米粉的特点··························Порозова С.Е.等,6~9;
3.添加Cr2O3/Fe2O3对钛酸铝性能的影响··································Худун Ло等,10~16;
4.锰钢浇注用中间包振动成型制品生产用浇注料···················Воронина О.Б.等,17~18;
5.玻璃窑燃烧装置的高效内衬结构···········································Дзюзер В.Я.,19~21;
6.用熔融石英高浓度陶瓷结合泥浆制备材料方面的研究(6)烧结温度对烧成温度和材料方石英化的影响················································Пивинский Ю.Е.等,22~31;
7.致密多晶氧化物陶瓷在1600℃下的长期强度·······················Бакунов В.С.等,32~40;
8.用铝热渣制成的改性结合剂及用其制备多孔隔热浇注料·········-Абызов В.А.等,43~47;
9.脉冲激光辐射对ВОК71陶瓷表面的作用································Кузин В.В.等,48~51;
10.用有色冶金废料和磷酸盐结合剂制成的内衬材料定向结构化学改性技术的革新性开发··································································Рощупкина И.Ю.等,52~56;
11.摩擦材料及定有陶瓷复合材料的高荷载刹车系统
用刹车片的制备工艺分析···········································Нилов А.С.等,57~68。