en آماده ساری نیترید سیلیکون پیوند شده با واکنش (RBSN) از طریق ریخته‌گری ژل سیلیکونی تجاری و بررسی تأثیر pH پیش مخلوط و ترکیبات کمک تف جوشی بر تشکیل نیترید سیلیکون و بدنه تخلخل سایر (برق، عمران، معماری، هیدرولیک، ماشین آلات کشاورزی، ساخت و تولید، متالوژی، ریاضی، فیزیک، شیمی و ...) سایر (برق، عمران، معماری، هیدرولیک، ماشین آلات کشاورزی، ساخت و تولید، متالوژی، ریاضی، فیزیک، شیمی و ...) پژوهشي Research چکیده <div class="tw-ta-container F0azHf tw-lfl" id="tw-target-text-container" tabindex="0"> <pre class="tw-data-text tw-text-large tw-ta" data-placeholder="ترجمه" dir="rtl" id="tw-target-text" style="text-align: left;"> <span style="font-size:12px;"><span style="font-family:Times New Roman;">The aim of the present study was to manufacture porous Si₃N₄ ceramic through gel-casting of Si powder and RBSN method. The effects of gel solution pH and amount of sintering aids</span></span><font face="Times New Roman"><span style="font-size:12px">چکیده </span></font><span style="font-size:12px;"><span style="font-family:Times New Roman;"> were investigated. Acrylamide&nbsp; and Methylenebisacrylamide were used as monomers solution (ratio of 15 AM: 1 MBAM). Al₂O₃, Y₂O₃, and SiO₂ powders (as sintering aids) and Si (as main powder) were added to obtain a slurry with solid loading of 60wt%. Heat treatment and nitridation process were carried out up to 1350&ordm;C and in N₂ atmosphere for 22 hr. Results of XRD analysis showed that the final phase in all samples was metallic Si and &beta;-Si₃N₄ along with some percentages of cristobalite. Analysis of the effects of pH on the final phase of&nbsp; the samples made of Si powder (pure and without sintering aids) revealed that preparation of the gel solution in acid environment (pH:2~3) led to an increased intensity of &beta;-Si₃N₄ phase peaks and reduced metallic Si phase in comparison with the alkaline environment (pH:11~12), and the slurry prepared in the acidic environment reacted more effectively with N₂ atmosphere. Regarding the effect of sintering aids on the formation of the final phase, the findings suggested that increasing the amount of SiO₂ and reducing Al₂O₃ and Y₂O₃ did result in the formation of more &beta;- Si₃N₄ (from 66% to 80%) and decrease in the Si metal (from 18% to 7%). Moreover, increased amount of sintering aids and formation of more liquid phase facilitated the proces of &beta;-Si₃N₄. </span></span></pre> </div> <div class="tw-target-rmn tw-ta-container F0azHf tw-nfl" id="tw-target-rmn-container"> <pre class="tw-data-placeholder tw-text-small tw-ta" data-placeholder="" dir="ltr" id="tw-target-rmn" style="text-align: left;"> <span class="Y2IQFc"></span></pre> </div> <div style="text-align: justify;"><span style="font-size:12px;"><span style="font-family:Times New Roman;">The aim of the present study was to manufacture porous Si₃N₄ ceramic through gel-casting of Si powder and RBSN method. The effects of gel solution pH and amount of sintering aids were investigated. Acrylamide&nbsp; and Methylenebisacrylamide were used as monomers solution (ratio of 15 AM: 1 MBAM). Al₂O₃, Y₂O₃, and SiO₂ powders (as sintering aids) and Si (as main powder) were added to obtain a slurry with solid loading of 60wt%. Heat treatment and nitridation process were carried out up to 1350&ordm;C and in N₂ atmosphere for 22 hr. Results of XRD analysis showed that the final phase in all samples was metallic Si and &beta;-Si₃N₄ along with some percentages of cristobalite. Analysis of the effects of pH on the final phase of&nbsp; the samples made of Si powder (pure and without sintering aids) revealed that preparation of the gel solution in acid environment (pH:2~3) led to an increased intensity of &beta;-Si₃N₄ phase peaks and reduced metallic Si phase in comparison with the alkaline environment (pH:11~12), and the slurry prepared in the acidic environment reacted more effectively with N₂ atmosphere. Regarding the effect of sintering aids on the formation of the final phase, the findings suggested that increasing the amount of SiO₂ and reducing Al₂O₃ and Y₂O₃ did result in the formation of more &beta;- Si₃N₄ (from 66% to 80%) and decrease in the Si metal (from 18% to 7%). Moreover, increased amount of sintering aids and formation of more liquid phase facilitated the proces of &beta;-Si₃N₄.</span></span></div> Porous Si3N4, Gel-casting, Sol pH, Sintering aid 1 12 http://jeed.dezful.iau.ir/browse.php?a_code=A-10-346-1&slc_lang=en&sid=1 Mehri Mashhadi Mehri Mashhadi 10031947532846004647 10031947532846004647 No Faculty of Materials and Manufacturing, Malek Ashtar University of Technology, Tehran. .Faculty of Materials and Manufacturing, Malek Ashtar University of Technology, Tehran سازمان Mahboubeh Vaseghi Mahboubeh Vaseghi m_vaseghi83@yahoo.com 10031947532846004648 10031947532846004648 Yes Materials and Energy Research Center, Dezful Branch, Islamic Azad University, Dezful. .Materials and Energy Research Center, Dezful Branch, Islamic Azad University, Dezful سازمان Reihaneh Ahmadi Reihaneh Ahmadi 10031947532846004649 10031947532846004649 No Faculty of Materials and Manufacturing, Malek Ashtar University of Technology, Tehran. .Faculty of Materials and Manufacturing, Malek Ashtar University of Technology, Tehran سازمان