Oxidation Resistance of Nano-Reinforced PC-Refractories Modified with Phenol Formaldehyde Resin. Part 4. Thermodynamic Evaluation of Phase Formation Within Mg-O-C-Al, Mg-O-C-Ni and MgO-Al2O3-NiO-SiO2 Systems Using SiC plus Al plus Ni (NiO) Complex Antioxidant(1)

Semchenko G. D.; Borisenko O. N.; Brazhnik D. A.; Logvinkov S. M.; Povshuk V. V.; Shuteeva I. Yu.; Angolenko L. A.; Chopenko N. S.; Vasyuk P. A.

首页> 外文期刊>Refractories and Industrial Ceramics >Oxidation Resistance of Nano-Reinforced PC-Refractories Modified with Phenol Formaldehyde Resin. Part 4. Thermodynamic Evaluation of Phase Formation Within Mg-O-C-Al, Mg-O-C-Ni and MgO-Al2O3-NiO-SiO2 Systems Using SiC plus Al plus Ni (NiO) Complex Antioxidant(1)

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Oxidation Resistance of Nano-Reinforced PC-Refractories Modified with Phenol Formaldehyde Resin. Part 4. Thermodynamic Evaluation of Phase Formation Within Mg-O-C-Al, Mg-O-C-Ni and MgO-Al2O3-NiO-SiO2 Systems Using SiC plus Al plus Ni (NiO) Complex Antioxidant(1)

机译：苯酚甲醛树脂改性纳米增强PC耐火材料的抗氧化性。第4部分使用SiC加Al Plus Ni（NiO）复合抗氧化剂（1）的Mg-O-C-Al，Mg-O-C-Al，Mg-O-C-Ni和MgO-Al2O3-NiO-SiO2系统中的相结合的热力学评价

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Results are given for the synthesis and co-existence of phases formed from components of complex organic-inorganic antioxidant formed during modification of phenol-formaldehyde resin (PFR) and graphite with silica alkoxide and inorganic or organic nickel precursors. Thermodynamic analysis is given for the Mg-Al-C and Mg-O-Ni-C systems. It is shown that the periclase and carbon can coexist with aluminum and nickel, and also that oxidized antioxidants Al2O3 and NiO can interact respectively with the periclase and with the synthesized SiC formed during modification of PFR with silica. In considering the NiO-MgO-Al2O3-SiO2 system it is established that during service noble spinel will be synthesized from the complex antioxidant components, facilitating an increase in PC-refractory durability in service.

机译：给出了由在酚醛 - 甲醛树脂（PFR）和二氧化硅醇盐和无机或有机镍前体的改性期间形成的复合有机 - 无机抗氧化剂组分的合成和共存的合成和共存。给出了Mg-Al-C和Mg-O-Ni-C系统的热力学分析。结果表明，纤维化酶和碳可以与铝和镍共存，并且还可以将氧化的抗氧化剂Al 2 O 3和NiO与蠕变相互作用，并且在具有二氧化硅的PFR改变过程中形成的合成的SiC相互作用。在考虑NiO-MgO-Al2O3-SiO 2系统时，建立在营养耳机期间，将从复合抗氧化组件中合成，促进在服务中的PC耐火耐久性的增加。

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来源
《Refractories and Industrial Ceramics》 |2017年第4期|共11页
作者
Semchenko G. D.; Borisenko O. N.; Brazhnik D. A.; Logvinkov S. M.; Povshuk V. V.; Shuteeva I. Yu.; Angolenko L. A.; Chopenko N. S.; Vasyuk P. A.;
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作者单位

Natl Tech Univ Kharkov Polytenchn Inst Kharkov Ukraine;

Semen Kuznets Kharkov Natl Econ Univ Kharkov Ukraine;

Natl Tech Univ Kharkov Polytenchn Inst Kharkov Ukraine;

Semen Kuznets Kharkov Natl Econ Univ Kharkov Ukraine;

Natl Tech Univ Kharkov Polytenchn Inst Kharkov Ukraine;

Akvatika Kharkov Ukraine;

Natl Tech Univ Kharkov Polytenchn Inst Kharkov Ukraine;

Yu Kondratyuk Poltava Natl Tech Univ Poltava Ukraine;

Natl Tech Univ Kharkov Polytenchn Inst Kharkov Ukraine;

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原文格式 PDF
正文语种 eng
中图分类硅酸盐工业;
关键词
periclase-carbon (PC) refractories; phenol formaldehyde resin (PFR); organic-inorganic complex; complex antioxidant; thermodynamic analysis; Mg-Al-O-C; Mg-Ni-O-C and Ni-Mg-Al-Si systems;

机译：易溶性 - 碳（PC）耐火材料;酚醛树脂（PFR）;有机 - 无机络合物;复合抗氧化剂;热力学分析;MG-AL-C;Mg-Ni-O-C和Ni-Mg-Al-Si系统;

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外文文献

1. Oxidation Resistance of Nano-Reinforced PC-Refractories Modified with Phenol Formaldehyde Resin. Part 4. Thermodynamic Evaluation of Phase Formation Within Mg-O-C-Al, Mg-O-C-Ni and MgO-Al2O3-NiO-SiO2 Systems Using SiC plus Al plus Ni (NiO) Complex Antioxidant(1) [J] . Semchenko G. D., Borisenko O. N., Brazhnik D. A., Refractories and Industrial Ceramics . 2017,第4期

机译：苯酚甲醛树脂改性纳米增强PC耐火材料的抗氧化性。第4部分使用SiC加Al Plus Ni（NiO）复合抗氧化剂（1）的Mg-O-C-Al，Mg-O-C-Al，Mg-O-C-Ni和MgO-Al2O3-NiO-SiO2系统中的相结合的热力学评价
2. Oxidation Resistance of Nano-Reinforced PC-Refractories Modified with Phenol Formaldehyde Resin. Part 5. Optimization of Filler Grain Size Composition by Means of a Simplex-Lattice Planning Method Using Complex Modification of Charge Components(1) [J] . Borisenko O. N., Semchenko G. D., Povshuk V. V., Refractories and Industrial Ceramics . 2018,第5期

机译：苯酚甲醛树脂改性纳米增强PC耐火材料的抗氧化性。第5部分通过使用复杂的电荷组件（1）的单纯形晶格计划方法优化填充粒度组合物（1）
3. Oxidation-Resistant Nano-Reinforced PC-Refractories of Modified Phenolformaldehyde Resin. Part 3. Formation Mechanism of Organic - Inorganic Complexes During Low-Temperature Synthesis of Nanoparticles of Additional Antioxidants and Their Effectiveness(1) [J] . Semchenko G. D., Shuteeva I. Yu., Povshuk V. V., Refractories and Industrial Ceramics . 2017,第1期

机译：耐氧化纳米增强的改性酚醛树脂的PC耐火材料。第3部分。纳米粒子纳米粒子低温合成中有机 - 无机络合物的形成机理及其效果（1）
4. Oxidation-resistance nanoreinforced periclasecarbonaceous (PC) refractories based on the modified phenol-formaldehyde resin. Part 3. Evolution of the organic-inorganic complexes development for the low-temperature synthesis of additional anti-oxidizing nanoparticles and their efficiency [O] . G. D. Semchenko, I. Yu. Shuteeva, V. V. Povshuk, 2017

机译：基于改性酚醛树脂的氧化耐氧化纳米裂缝碳饱和度（PC）耐火材料。 3.第3部分施加有机无机复合物的进化额外抗氧化纳米粒子的低温合成及其效率

Oxidation Resistance of Nano-Reinforced PC-Refractories Modified with Phenol Formaldehyde Resin. Part 4. Thermodynamic Evaluation of Phase Formation Within Mg-O-C-Al, Mg-O-C-Ni and MgO-Al2O3-NiO-SiO2 Systems Using SiC plus Al plus Ni (NiO) Complex Antioxidant(1)

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