{"title":"技术文本介绍了槟榔在变水养护前必须通过PASSA-PASSA-BACK","authors":"Syarifah Asria Nanda, Maulani Emi, Yovi Chandra","doi":"10.29103/tj.v12i2.671","DOIUrl":null,"url":null,"abstract":"<p align=\"center\"><strong>Abstrak</strong></p><p> </p><p class=\"11daftarpustaka\">Material beton salah satu bahan penyusunnya adalah pasir (agregat halus). Pasir pantai sebagai bahan penyusun beton menjadi pilihan oleh masyarakat pesisir. Kebakaran meninggalkan kekhawatiran akan struktur beton yang mengakibatkan penurunan terhadap kekuatan beton. Untuk menggembalikan kekuatan beton pasca bakar perlu dilakukan proses pemulihan. Penelitian menggunakan pasir pantai sebagai pengganti agregat halus pada beton yaitu mengetahui besar kuat tekan untuk beton beragregat pasir pantai pasca bakar dan metode waktu <em>water curing</em>. Penelitian dilakukan di Laboratorium dengan metode eksperimental. Benda uji dibuat 15 sampel berbentuk silinder dengan diameter 15 cm dan tinggi 30 cm. Pengujian kuat tekan beton dengan waktu 28 hari tanpa pembakaran, pasca bakar 350°C, dan pasca bakar 350°C dengan <em>water curing</em> pada umur 7, 14 dan 28 hari. Hasil pengujian kuat tekan untuk beton beragregat halus pasir pantai sebesar 17,90 Mpa dan pasca bakar 350°C sebesar 10.41 Mpa. Perlakuan beton pasca bakar 350°C beragregat halus pasir pantai dengan <em>water curring</em> umur 7,14 dan 28 hari berturut-turut adalah 12,20 Mpa, 13,69 Mpa, dan 14,89 Mpa. Pemulihan beton pasca bakar 350°C dengan <em>water curing </em>28 hari menunjukkan kenaikan kuat tekan beton yang maksimal bahwa pengaruh perawatan (curing) pada beton pasca pembakaran sangat mempengaruhi pengembalian kuat tekan beton beragregat halus pasir pantai.</p><p class=\"11daftarpustaka\"> </p><p align=\"center\">Kata kunci: <em>kuat tekan beton, pasca bakar, waktu water curing, pasir pantai.</em><strong></strong></p><p align=\"center\"><strong> </strong></p><p align=\"center\"><strong> </strong></p><p align=\"center\"><strong> </strong></p><p align=\"center\"><strong>Abstract</strong></p><p align=\"center\"><strong> </strong></p><p class=\"11daftarpustaka\">One of the materials for making concrete is sand (fine aggregate). Beach sand as a material for making concrete is the choice of coastal communities. The fire left a concern for the concrete structure which resulted in a decrease in the strength of the concrete. To restore the strength of post-combustion concrete, it is necessary to carry out a recovery process. Research using beach sand as a substitute for fine aggregate in concrete is to determine the compressive strength for post-burnt aggregated beach sand and the method of water curing time. The research was conducted in a laboratory with an experimental method. The test specimens were made of 15 cylindrical samples with a diameter of 15 cm and a height of 30 cm. Testing the compressive strength of concrete with a time of 28 days without burning, post-burning 350°C, and post-burning 350°C with water curing at the age of 7, 14 and 28 days. The results of the compressive strength test for fine aggregated beach sand are 17.90 Mpa and post-burnt 350°C is 10.41 Mpa. The treatment of post-burned concrete at 350°C with fine aggregated beach sand with water curring at the age of 7.14 and 28 days, respectively, was 12.20 Mpa, 13.69 Mpa, and 14.89 Mpa. Recovery of post-burned concrete at 350°C with water curing 28 days showed an increase in the maximum compressive strength of concrete that the effect of curing on post-combustion concrete greatly affects the return of the compressive strength of fine-aggregated concrete on beach sand.</p><p class=\"11daftarpustaka\"> </p><p class=\"11daftarpustaka\">Keywords: <em>compressive strength of concrete, post burn, water curing time, beach sand.</em></p><strong><em></em></strong><em><strong></strong></em>","PeriodicalId":52898,"journal":{"name":"Teras Jurnal Jurnal Teknik Sipil","volume":" ","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2022-09-26","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"KAJIAN KUAT TEKAN BETON BERAGREGAT HALUS PASIR PANTAI PASCA BAKAR DENGAN VARIASI WAKTU WATER CURING\",\"authors\":\"Syarifah Asria Nanda, Maulani Emi, Yovi Chandra\",\"doi\":\"10.29103/tj.v12i2.671\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p align=\\\"center\\\"><strong>Abstrak</strong></p><p> </p><p class=\\\"11daftarpustaka\\\">Material beton salah satu bahan penyusunnya adalah pasir (agregat halus). Pasir pantai sebagai bahan penyusun beton menjadi pilihan oleh masyarakat pesisir. Kebakaran meninggalkan kekhawatiran akan struktur beton yang mengakibatkan penurunan terhadap kekuatan beton. Untuk menggembalikan kekuatan beton pasca bakar perlu dilakukan proses pemulihan. Penelitian menggunakan pasir pantai sebagai pengganti agregat halus pada beton yaitu mengetahui besar kuat tekan untuk beton beragregat pasir pantai pasca bakar dan metode waktu <em>water curing</em>. Penelitian dilakukan di Laboratorium dengan metode eksperimental. Benda uji dibuat 15 sampel berbentuk silinder dengan diameter 15 cm dan tinggi 30 cm. Pengujian kuat tekan beton dengan waktu 28 hari tanpa pembakaran, pasca bakar 350°C, dan pasca bakar 350°C dengan <em>water curing</em> pada umur 7, 14 dan 28 hari. Hasil pengujian kuat tekan untuk beton beragregat halus pasir pantai sebesar 17,90 Mpa dan pasca bakar 350°C sebesar 10.41 Mpa. Perlakuan beton pasca bakar 350°C beragregat halus pasir pantai dengan <em>water curring</em> umur 7,14 dan 28 hari berturut-turut adalah 12,20 Mpa, 13,69 Mpa, dan 14,89 Mpa. Pemulihan beton pasca bakar 350°C dengan <em>water curing </em>28 hari menunjukkan kenaikan kuat tekan beton yang maksimal bahwa pengaruh perawatan (curing) pada beton pasca pembakaran sangat mempengaruhi pengembalian kuat tekan beton beragregat halus pasir pantai.</p><p class=\\\"11daftarpustaka\\\"> </p><p align=\\\"center\\\">Kata kunci: <em>kuat tekan beton, pasca bakar, waktu water curing, pasir pantai.</em><strong></strong></p><p align=\\\"center\\\"><strong> </strong></p><p align=\\\"center\\\"><strong> </strong></p><p align=\\\"center\\\"><strong> </strong></p><p align=\\\"center\\\"><strong>Abstract</strong></p><p align=\\\"center\\\"><strong> </strong></p><p class=\\\"11daftarpustaka\\\">One of the materials for making concrete is sand (fine aggregate). Beach sand as a material for making concrete is the choice of coastal communities. The fire left a concern for the concrete structure which resulted in a decrease in the strength of the concrete. To restore the strength of post-combustion concrete, it is necessary to carry out a recovery process. Research using beach sand as a substitute for fine aggregate in concrete is to determine the compressive strength for post-burnt aggregated beach sand and the method of water curing time. The research was conducted in a laboratory with an experimental method. The test specimens were made of 15 cylindrical samples with a diameter of 15 cm and a height of 30 cm. Testing the compressive strength of concrete with a time of 28 days without burning, post-burning 350°C, and post-burning 350°C with water curing at the age of 7, 14 and 28 days. The results of the compressive strength test for fine aggregated beach sand are 17.90 Mpa and post-burnt 350°C is 10.41 Mpa. The treatment of post-burned concrete at 350°C with fine aggregated beach sand with water curring at the age of 7.14 and 28 days, respectively, was 12.20 Mpa, 13.69 Mpa, and 14.89 Mpa. Recovery of post-burned concrete at 350°C with water curing 28 days showed an increase in the maximum compressive strength of concrete that the effect of curing on post-combustion concrete greatly affects the return of the compressive strength of fine-aggregated concrete on beach sand.</p><p class=\\\"11daftarpustaka\\\"> </p><p class=\\\"11daftarpustaka\\\">Keywords: <em>compressive strength of concrete, post burn, water curing time, beach sand.</em></p><strong><em></em></strong><em><strong></strong></em>\",\"PeriodicalId\":52898,\"journal\":{\"name\":\"Teras Jurnal Jurnal Teknik Sipil\",\"volume\":\" \",\"pages\":\"\"},\"PeriodicalIF\":0.0000,\"publicationDate\":\"2022-09-26\",\"publicationTypes\":\"Journal Article\",\"fieldsOfStudy\":null,\"isOpenAccess\":false,\"openAccessPdf\":\"\",\"citationCount\":\"0\",\"resultStr\":null,\"platform\":\"Semanticscholar\",\"paperid\":null,\"PeriodicalName\":\"Teras Jurnal Jurnal Teknik Sipil\",\"FirstCategoryId\":\"1085\",\"ListUrlMain\":\"https://doi.org/10.29103/tj.v12i2.671\",\"RegionNum\":0,\"RegionCategory\":null,\"ArticlePicture\":[],\"TitleCN\":null,\"AbstractTextCN\":null,\"PMCID\":null,\"EPubDate\":\"\",\"PubModel\":\"\",\"JCR\":\"\",\"JCRName\":\"\",\"Score\":null,\"Total\":0}","platform":"Semanticscholar","paperid":null,"PeriodicalName":"Teras Jurnal Jurnal Teknik Sipil","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.29103/tj.v12i2.671","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
引用次数: 0
摘要
组成成分之一是沙子(骨料)。沿海社区选择了流沙作为混凝土的成分。大火留下了对混凝土结构的担忧,导致混凝土强度的下降。为了恢复混凝土燃烧后的反冲需要恢复。研究表明,用砂代替混凝土中平滑的骨料,这种黏稠的挤压可以代替燃烧后的砂浆和时间冲水的方法。这项研究是在实验室里用实验方法进行的。实验对象制造了15个圆柱形样本,直径15厘米,高度30厘米。强大的测试结束后,随着时间的推移,按混凝土28天没有燃烧后350°C,燃料和燃料350°C的水复合年龄7、14和28天。强大压力测试结果为混凝土beragregat大小的细沙滩17.90 Mpa,后350°C烤10万41 Mpa。混凝土后待遇燃料350°C beragregat沙滩细水curring政府现在年龄和连续28天是12,20 Mpa, 13.69 Mpa, 14.89 Mpa。恢复燃料350°C的水后复合混凝土28天强大按最大的混凝土上升表明,治疗(复合)影响深刻地影响燃烧后回报混凝土按混凝土beragregat光滑的沙滩。关键词:强压混凝土,点火后,水冲,沙滩。禁止制作混凝土的材料之一是沙子。沙滩和做concrete的材料是共同的选择。大火留下了一个关于混凝土结构的注意事项,这是在混凝土强度下可降解的。为了恢复恢复原状的力量,有必要推迟恢复进程。利用海滩进行研究,以确定海啸后对沙滩的破坏和水时代的方法所产生的压缩力量。这项研究是基于一种实验方法的实验室。测试对象是15个周期样本,直径为15厘米,高度为30厘米。测试混凝土with a》(compressive力量》28天没有燃烧,post-burning 350°C,和水一起post-burning 350°C复合at the age of 7、14和28天。results》(compressive力量测试for fine aggregated海滩的沙子是17 . 90 Mpa和41 Mpa post-burnt 350°C是10。post-burned混凝土在350°C之治疗用fine aggregated海滩的沙子和水curring at The age of 7 . 14和28天,respectively是12。20 Mpa、13 . 69 Mpa和14 . 89 Mpa。post-burned混凝土在350°C的复苏与水的复合28天那里增加in the maximum compressive混凝土的拼搏,那复合效应》归来》在post-combustion混凝土greatly .影响compressive fine-aggregated混凝土的拼搏,海滩上的沙子。明白了,明白了,明白了,明白了。
KAJIAN KUAT TEKAN BETON BERAGREGAT HALUS PASIR PANTAI PASCA BAKAR DENGAN VARIASI WAKTU WATER CURING
Abstrak
Material beton salah satu bahan penyusunnya adalah pasir (agregat halus). Pasir pantai sebagai bahan penyusun beton menjadi pilihan oleh masyarakat pesisir. Kebakaran meninggalkan kekhawatiran akan struktur beton yang mengakibatkan penurunan terhadap kekuatan beton. Untuk menggembalikan kekuatan beton pasca bakar perlu dilakukan proses pemulihan. Penelitian menggunakan pasir pantai sebagai pengganti agregat halus pada beton yaitu mengetahui besar kuat tekan untuk beton beragregat pasir pantai pasca bakar dan metode waktu water curing. Penelitian dilakukan di Laboratorium dengan metode eksperimental. Benda uji dibuat 15 sampel berbentuk silinder dengan diameter 15 cm dan tinggi 30 cm. Pengujian kuat tekan beton dengan waktu 28 hari tanpa pembakaran, pasca bakar 350°C, dan pasca bakar 350°C dengan water curing pada umur 7, 14 dan 28 hari. Hasil pengujian kuat tekan untuk beton beragregat halus pasir pantai sebesar 17,90 Mpa dan pasca bakar 350°C sebesar 10.41 Mpa. Perlakuan beton pasca bakar 350°C beragregat halus pasir pantai dengan water curring umur 7,14 dan 28 hari berturut-turut adalah 12,20 Mpa, 13,69 Mpa, dan 14,89 Mpa. Pemulihan beton pasca bakar 350°C dengan water curing 28 hari menunjukkan kenaikan kuat tekan beton yang maksimal bahwa pengaruh perawatan (curing) pada beton pasca pembakaran sangat mempengaruhi pengembalian kuat tekan beton beragregat halus pasir pantai.
Kata kunci: kuat tekan beton, pasca bakar, waktu water curing, pasir pantai.
Abstract
One of the materials for making concrete is sand (fine aggregate). Beach sand as a material for making concrete is the choice of coastal communities. The fire left a concern for the concrete structure which resulted in a decrease in the strength of the concrete. To restore the strength of post-combustion concrete, it is necessary to carry out a recovery process. Research using beach sand as a substitute for fine aggregate in concrete is to determine the compressive strength for post-burnt aggregated beach sand and the method of water curing time. The research was conducted in a laboratory with an experimental method. The test specimens were made of 15 cylindrical samples with a diameter of 15 cm and a height of 30 cm. Testing the compressive strength of concrete with a time of 28 days without burning, post-burning 350°C, and post-burning 350°C with water curing at the age of 7, 14 and 28 days. The results of the compressive strength test for fine aggregated beach sand are 17.90 Mpa and post-burnt 350°C is 10.41 Mpa. The treatment of post-burned concrete at 350°C with fine aggregated beach sand with water curring at the age of 7.14 and 28 days, respectively, was 12.20 Mpa, 13.69 Mpa, and 14.89 Mpa. Recovery of post-burned concrete at 350°C with water curing 28 days showed an increase in the maximum compressive strength of concrete that the effect of curing on post-combustion concrete greatly affects the return of the compressive strength of fine-aggregated concrete on beach sand.
Keywords: compressive strength of concrete, post burn, water curing time, beach sand.
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