Si-O-C ceramic foams derived from polymethylphenylsiloxane precursor with starch as foaming agent

Cerny Martin; Chlup Zdenek; Strachota Adam; Svitilova Jaroslava; Schweigstillova Jana; Halasova Martina; Ryglova Sarka

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Si-O-C ceramic foams derived from polymethylphenylsiloxane precursor with starch as foaming agent

机译：以淀粉为发泡剂的聚甲基苯基硅氧烷前体衍生的Si-O-C陶瓷泡沫

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Si-O-C ("black glass") ceramic foam was prepared by the foaming of a preceramic polymer, polymethylphenylsiloxane resin, and by its subsequent pyrolysis conducted up to 1000 degrees C. Prior to foaming, corn starch was blended with the diluted resin, in order to achieve uniform and small-sized pores. The foaming of the polymer blend was carried out simultaneously with its crosslinldng: escaping water vapour (forming from starch) served as the blowing agent. The apparent foam density can be controlled by adjusting the foaming temperature or by varying the amount of added starch. Both ways were used to prepare foam samples with porosity in the range of 70-90%. The porosity-dependent compressive strength of these foams was found to be in the range of 1-16 MPa. (C) 2015 Elsevier Ltd. All rights reserved.

机译：Si-OC（“黑玻璃”）陶瓷泡沫是通过先陶瓷聚合物，聚甲基苯基硅氧烷树脂发泡，随后在高达1000摄氏度的高温下进行热解制备的。在发泡之前，将玉米淀粉与稀释的树脂混合，为了获得均匀和小巧的毛孔。聚合物共混物的发泡与交联同时进行：逸出的水蒸气（由淀粉形成）用作发泡剂。表观泡沫密度可通过调节发泡温度或通过改变淀粉的添加量来控制。两种方法都用于制备孔隙率在70-90％范围内的泡沫样品。发现这些泡沫的与孔隙率有关的抗压强度在1-16MPa的范围内。（C）2015 Elsevier Ltd.保留所有权利。

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来源
《Journal of the European Ceramic Society》 |2015年第13期|共10页
作者
Cerny Martin; Chlup Zdenek; Strachota Adam; Svitilova Jaroslava; Schweigstillova Jana; Halasova Martina; Ryglova Sarka;
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原文格式 PDF
正文语种 eng
中图分类陶瓷工业;
关键词
Pyrolysis; Ceramic foam; Precursor; Starch; Si-O-C;

机译：热解;陶瓷泡沫;前体;淀粉;Si-O-C;

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1. Si-O-C ceramic foams derived from polymethylphenylsiloxane precursor with starch as foaming agent [J] . Cerny Martin, Chlup Zdenek, Strachota Adam, Journal of the European Ceramic Society . 2015,第13期

机译：以淀粉为发泡剂的聚甲基苯基硅氧烷前体衍生的Si-O-C陶瓷泡沫
2. Synthesis of a foam ceramic based on ceramic tile polishing waste using SiC as foaming agent [J] . Wang Hao, Chen Ziwei, Liu Lili, CERAMICS INTERNATIONAL . 2018,第9期

机译：基于陶瓷砖抛光废弃物的泡沫陶瓷用SiC作为发泡剂的合成
3. Preparation of SrTiO_3 Ceramic Foam from Alkoxide-Derived Oxide Green Sheets Containing Polymer Microspheres via Polymer Extraction (Part 2)-Influence of Additional Amount of Polymer Microsheres on SrTiO_3 Ceramic Foam [J] . Kawakaki K., Ozaki Y. 日本セラミックス協会学術論文誌 . 2000,第1258期

机译：通过聚合物萃取从含聚合物微球的醇盐衍生氧化物生片制备SrTiO_3陶瓷泡沫（第2部分）-额外数量的聚合物微粉对SrTiO_3陶瓷泡沫的影响
4. Fabrication of Clay Foam Ceramics Using Silicon Carbide and Ferric Oxide as Foaming Agents [C] . Guang-liang Liu, Jian-guan Bai, Jian-feng Yang Eco-materials processing and design X . 2009

机译：以碳化硅和三氧化二铁为发泡剂的粘土泡沫陶瓷的制备
5. Production of metallic foams from ceramic foam precursors. [D] . Verdooren, Alexander. 2004

机译：由陶瓷泡沫前体生产金属泡沫。
6. Comparison of Foam Glass-Ceramics with Different Composition Derived from Ark Clamshell (ACS) and Soda Lime Silica (SLS) Glass Bottles Sintered at Various Temperatures [O] . Noor Aizat Noor Hisham, Mohd Hafiz Mohd Zaid, Sidek Hj Ab Aziz, 2021

机译：泡沫玻璃 - 陶瓷与源自ARK Clamshell（ACS）的不同组合物的比较和苏打石灰二氧化硅（SLS）玻璃瓶在各种温度下烧结
7. The Impact of Malt Derived Proteins on Beer Foam Quality. Part II: The Influence of Malt Foam-positive Proteins and Non-starch Polysaccharides on Beer Foam Quality [O] . D.E. Evans, M.C. Sheehan, D.C. Stewart 1999

机译：麦芽衍生蛋白对啤酒泡沫质量的影响。第二部分：麦芽泡沫阳性蛋白和非淀粉多糖对啤酒泡沫质量的影响

Si-O-C ceramic foams derived from polymethylphenylsiloxane precursor with starch as foaming agent

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