?url_ver=Z39.88-2004&rft_id=1315021010&rft_val_fmt=info%3Aofi%2Ffmt%3Akev%3Amtx%3Adc&rft.title=PENGGUNAAN+KOMPOSIT+GEOPOLIMER+UNTUK+PIPA+TAHAN+%0D%0APANAS+DAN+KOROSI&rft.creator=ARIZON%2C+1315021010&rft.subject=620+Ilmu+teknik+dan+ilmu+yang+berkaitan&rft.description=Perpipaan+merupakan+sarana+transportasi+untuk+mengalirkan+fluida.+Dalam%0D%0Akondisi+tertentu+dibutuhkan+pipa+yang+tahan+terhadap+korosi%2C+endapan+kerak+dan%0D%0Atemperatur+panas.+Masalah+yang+muncul+pada+penggunaan+pipa+baja+ialah+laju%0D%0Akorosi+dan+endapan+kerak+yang+tinggi%2C+sedangkan+penggunaan+pipa+PVC%0D%0A(Berbahan+Plastik)+tidak+tahan+terhadap+temperatur+panas.+Penelitian+ini%0D%0Amerupakan+suatu+upaya+untuk+mandapatkan+material+yang+tahan+terhadap+panas%0D%0Adan+korosi.+Material+yang+digunakan+adalah+silika+sekam+padi%2C+yang+kemudian%0D%0Adicampurkan+dengan+bahan-bahan+komposit+geopolimer+lainnya.+Dengan+metode%0D%0Ataguchi+dilakukan+eksperimen+dalam+jumlah+yang+banyak+untuk+mendapatkan%0D%0Asampel+terbaik.+Dihasilkan+komposisi+terbaik+yang+menghasilkan+Flexural%0D%0AStrength+rata-rata+58%2C16+Mpa%2C+dengan+komposisi+27+gr+Silikon+Dioksida%2C+51+gr%0D%0AKaolin%2C+9+gr+CaO%2C+13+gr+serat+karbon%2C+22%2C5+gr+Sodiuim+Silikat+dan+7%2C5+gr+Sodium%0D%0AHidroksida.+Kemudian+komposisi+optimum+tersebut+digunakan+untuk+pencetakan%0D%0Apipa+geopolimer+dengan+cara+Centrifugal+Casting.+Didapatkan+hasil+pengujian%0D%0AHoop+Tensile+Strength+dengan+rata-rata+0%2C76+MPa.+Berdasarkan+analisis+Taguchi%0D%0Akomposisi+komposit+geopolimer+optimum+yang+dihasilkan+adalah+33+gr+Silikon%0D%0ADioksida%2C+51+gr+Kaolin%2C+9+gr+CaO%2C+13+gr+Serat+Karbon%2C+22%2C5+gr+Sodium+Silikat+dan%0D%0A7%2C5+gr+Sodium+Hidroksida.+Kata+Kunci+%3A+Geopolimer%2C+Pipa%2C+Flexural+Strength%2C+Hoop+Tensile+Strength%2C+Metode%0D%0ATaguchi%2C+Centrifugal+Casting.%0D%0A%0D%0A%0D%0APiping+is+a+transportation+means+in+draining+fluid.+In+a+certain+condition%2C+it+is%0D%0Aneeded+a+pipe+that+is+resistant+to+corrosion%2C+scale+deposits+and+heat+themperature.%0D%0AThe+problems+that+appears+by+using+steel+pipe+are+the+speed+in+corrosing+and%0D%0Adeposits+in+scaling.+However%2C+the+use+of+PVC+pipe+(plastic+pipe)+is+not+resistant+in%0D%0Aheat+themperature.+This+research+is+an+attempt+to+obtain+materials+that+is+resistant%0D%0Ato+heat+and+corrosion.+The+materials+used+is+rice+husk+silica%2C+which+is+then+mixed%0D%0Awith+other+geopolymer+composites+materials.+With+the+taguchi+method+a+large%0D%0Anumber+of+experiments+are+performed+to+get+the+best+sample.+It+gets+the+best%0D%0Acomposition+which+gets+Flexural+Strength+with+average+58%2C16+Mpa%2C+the%0D%0Acomposistion+are+27+gr+of+Silicon+Dioxide%2C+51+gr+Caolin%2C+9+gr+CaO%2C+13+gr+Carbon%0D%0AFiber%2C+22%2C5+gr+Sodium+Silicate+and+7%2C5+gr+Sodium+Hidroksida.+After+that%2C+the%0D%0Aoptimum+composition+is+used+in+printing+the+geopolymer+pipe+by+Centrifugal%0D%0ACasting+method.+It+gets+the+test+result+Hoop+Tensile+Strength+with+average+0%2C76%0D%0AMpa.+According+to+the+Taguchi+analysis%2C+the+optimum+composition+of+the%0D%0Ageopolymer+composites+that+is+generated+are+33+gr+Silicon+Dioxide%2C+51+gr+Caolin%2C%0D%0A9+gr+CaO%2C+13+gr+Carbon+Fiber%2C+22%2C5+gr+Sodium+Silicate+and+7%2C5+gr+Sodium%0D%0AHidroksida.%0D%0AKeyword+%3A+Geopolymer%2C+Pipe%2C+Flexural+Strength%2C+Hoop+Tensile+Strength%2C+Taguchi%0D%0AMethod%2C+Centrifugal+Casting.%0D%0A&rft.publisher=FAKULTAS+TEKNIK&rft.date=2019-12-12&rft.type=Skripsi&rft.type=NonPeerReviewed&rft.format=text&rft.identifier=http%3A%2F%2Fdigilib.unila.ac.id%2F57124%2F1%2FABSTRAK.pdf&rft.format=text&rft.identifier=http%3A%2F%2Fdigilib.unila.ac.id%2F57124%2F2%2FSKRIPSI%2520FULL.pdf&rft.format=text&rft.identifier=http%3A%2F%2Fdigilib.unila.ac.id%2F57124%2F3%2FSKRIPSI%2520TANPA%2520BAB%2520PEMBAHASAN.pdf&rft.identifier=++ARIZON%2C+1315021010++(2019)+PENGGUNAAN+KOMPOSIT+GEOPOLIMER+UNTUK+PIPA+TAHAN+PANAS+DAN+KOROSI.++FAKULTAS+TEKNIK%2C+UNIVERSITAS+LAMPUNG.+++++&rft.relation=http%3A%2F%2Fdigilib.unila.ac.id%2F57124%2F