?url_ver=Z39.88-2004&rft_val_fmt=info%3Aofi%2Ffmt%3Akev%3Amtx%3Adc&rft.title=ANALISIS+KOMBINASI+CAMPURAN+3D+DRAMIX+DAN+KAWAT+BENDRAT+%0D%0APADA+SELF+COMPACTING+CONCRETE+(SCC)&rft.creator=AINAYA%2C+MAUDIA+ZAHRA&rft.subject=690+Pembangunan+gedung&rft.subject=720+Arsitektur&rft.description=ABSTRAK%0D%0A%0D%0ABeton+merupakan+material+struktur+yang+paling+sering+digunakan+pada+%0D%0Akonstruksi.+Penggunaan+beton+yang+luas+menciptakan+banyak+inovasi+terhadap+%0D%0Akomposisi+beton+agar+mendapatkan+beton+yang+lebih+baik.+Self+Compacting+Concrete+%0D%0A(SCC)+adalah+salah+satu+inovasi+dalam+pembuatan+beton.+SCC+adalah+beton+segar+%0D%0Ayang+mampu+mengalir+melalui+tulangan+dan+mengisi+seluruh+ruang+dalam+cetakan+%0D%0Atanpa+memerlukan+pemadatan+manual+atau+getaran+mekanik.+SCC+memiliki+%0D%0Akekurangan+nilai+kuat+tarik+yang+lemah+seperti+pada+beton+lainnya.+Maka+dilakukan+%0D%0Asebuah+inovasi+yaitu+penambahan+serat+pada+beton.+Dalam+penelitian+ini%2C+%0D%0Amenggunakan+kombinasi+kawat+bendrat+dan+3D+Dramix+dengan+panjang+6+cm+dan+%0D%0Adiameter+0%2C8+mm%2C+volume+fraksi+campuran+berjumlah+1%25+dan+1%2C5%25+dengan+jumlah+8+%0D%0Akombinasi.+Benda+uji+kuat+tekan+berupa+silinder+dengan+diameter+150+mm+dan+tinggi+%0D%0A300+mm+berjumlah+24+buah+dan+uji+kuat+tarik+lentur+berupa+balok+dengan+panjang+400+%0D%0Amm%2C+lebar+100+mm%2C+dan+tinggi+100+mm+berjumlah+24+buah.+Pengujian+dilakukan+pada+%0D%0Aumur+28+hari.+Dari+hasil+pengujian+yang+dilakukan%2C+kuat+tekan+tertinggi+terjadi+pada+%0D%0ABSV+yaitu+kombinasi+1%2C25%25+kawat+bendrat+dan+0%2C25%25+3D+Dramix+dengan+kenaikan+%0D%0Akuat+tekan+sebesar+15%2C04%25+dari+beton+normal.+Pada+uji+kuat+tarik+lentur+didapatkan+%0D%0Akenaikan+maksimum+pada+BSV+yaitu+kombinasi+1%2C25%25+kawat+bendrat+dan+0%2C25%25+3D+%0D%0ADramix+dengan+persentase+kenaikan+sebesar+1206%2C5%25+dari+beton+normal.+Hal+ini+%0D%0Amenunjukkan+bahwa+penambahan+3D+Dramix+dan+kawat+bendrat+menambah+kekuatan+%0D%0Atekan+dan+kuat+lentur+pada+SCC.+Namun%2C+semakin+banyak+serat+pada+SCC+%0D%0Amenyebabkan+workability+pada+beton+menurun+dan+pori+pada+beton+semakin+banyak.%0D%0AKata+kunci%3A+kawat+bendrat%2C+3D+Dramix%2C+kuat+tekan%2C+kuat+tarik+lentur%0D%0A%0D%0AABSTRACT%0D%0A%0D%0AConcrete+is+the+most+commonly+used+structural+material+in+construction.+The+%0D%0Awide+use+of+concrete+creates+many+innovations+to+the+composition+of+concrete+in+order+%0D%0Ato+get+better+concrete.+Self+Compacting+Concrete+(SCC)+is+one+of+the+innovations+in+%0D%0Aconcrete+manufacturing.+SCC+is+fresh+concrete+that+is+able+to+flow+through+the+%0D%0Areinforcement+and+fill+the+entire+space+in+the+mold+without+requiring+manual+%0D%0Acompaction+or+mechanical+vibration.+SCC+has+a+shortage+of+weak+tensile+strength+%0D%0Avalues+as+in+other+concrete.+So+an+innovation+was+made%2C+namely+the+addition+of+fiber+%0D%0Ato+the+concrete.+In+this+study%2C+using+a+combination+of+bendrat+wire+and+3D+Dramix+%0D%0Awith+a+length+of+6+cm+and+a+diameter+of+0.8+mm%2C+the+volume+fraction+of+the+mixture+%0D%0Aamounted+to+1%25+and+1.5%25+with+a+total+of+8+combinations.+The+compressive+strength+%0D%0Atest+object+was+a+cylinder+with+a+diameter+of+150+mm+and+a+height+of+300+mm+totaling+%0D%0A24+pieces+and+the+flexural+tensile+strength+test+was+a+beam+with+a+length+of+400+mm%2C+a+%0D%0Awidth+of+100+mm%2C+and+a+height+of+100+mm+totaling+24+pieces.+Tests+were+conducted+at+%0D%0Athe+age+of+28+days.+From+the+test+results%2C+the+highest+compressive+strength+occurred+in+%0D%0ABSV%2C+namely+a+combination+of+1.25%25+bendrat+wire+and+0.25%25+3D+Dramix+with+an+%0D%0Aincrease+in+compressive+strength+of+15.04%25+of+normal+concrete.+In+the+flexural+tensile+%0D%0Astrength+test%2C+the+maximum+increase+was+obtained+in+BSV%2C+namely+the+combination+of+%0D%0A1.25%25+bendrat+wire+and+0.25%25+3D+Dramix+with+a+percentage+increase+of+1206.5%25+%0D%0Afrom+normal+concrete.+This+shows+that+the+addition+of+3D+Dramix+and+bendrat+wire+%0D%0Aincreases+the+compressive+strength+and+flexural+strength+of+SCC.+However%2C+the+more+%0D%0Afiber+in+SCC+causes+the+workability+of+the+concrete+to+decrease+and+the+pores+in+the+%0D%0Aconcrete+to+increase.%0D%0AKeywords%3A+bendrat+wire%2C+3D+Dramix%2C+compressive+strength%2C+flexural+tensile+strength%0D%0A&rft.publisher=FAKULTAS+TEKNIK&rft.date=2023-10-13&rft.type=Skripsi&rft.type=NonPeerReviewed&rft.format=text&rft.identifier=http%3A%2F%2Fdigilib.unila.ac.id%2F76677%2F1%2FABSTRAK.pdf&rft.format=text&rft.identifier=http%3A%2F%2Fdigilib.unila.ac.id%2F76677%2F2%2FSKRIPSI%2520FULL.pdf&rft.format=text&rft.identifier=http%3A%2F%2Fdigilib.unila.ac.id%2F76677%2F3%2FSKRIPSI%2520TANPA%2520BAB%2520PEMBAHASAN.pdf&rft.identifier=++AINAYA%2C+MAUDIA+ZAHRA++(2023)+ANALISIS+KOMBINASI+CAMPURAN+3D+DRAMIX+DAN+KAWAT+BENDRAT+PADA+SELF+COMPACTING+CONCRETE+(SCC).++FAKULTAS+TEKNIK%2C+UNIVERSITAS+LAMPUNG.+++++&rft.relation=http%3A%2F%2Fdigilib.unila.ac.id%2F76677%2F