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All Journal Majalah Ilmiah Material, Komponen dan Konstruksi
suripto, Deden
Badan Pengkajian dan Penerapan Teknologi (BPPT)
Civil Engineering, Building, Construction & Architecture Engineering Industrial & Manufacturing Engineering Materials Science & Nanotechnology Mechanical Engineering

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PENGARUH JENIS AGREGAT RINGAN BUATAN TERHADAP KUAT TEKAN BETON RINGAN = EFFECT OF ARTIFICIAL LIGHTWEIGHT AGGREGATE TYPE FOR COMPRESSIVE STRENGTH OF LIGHTWEIGHT CONCRETE sulistyowati, Nurul aini; suripto, Deden
Material Komponen dan Konstruksi Vol 13, No 1 (2013)
Publisher : Badan Pengkajian dan Penerapan Teknologi (BPPT)

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Abstract

The aim of the research was to know the mechanical and physical properties of lightweight aggregate and compressive strength of concrete with lightweight aggregate. The raw materials for manufacturing lightweight aggregate include the mix composition of shale + sawdust, shale + rice husk, shale + rice husk ash, and shale. Th structural lightweight concrete was designed to have a compressive strength of 25 MPa. The specimen was cylindrical of 10 diameter and 20 cm high. The compressive strength of concrete tested at ages of 14 days, 21 days, and 28 days. Specific gravity of lightweight aggregate was less than 1.5, the best water absorption was of the lightweight aggregate shale and the best hardness that of the lightweight aggregate shale+ rice husk ash. The compressive strength of concrete with lightweight aggregate shale + sawdust 265.04 kg/cm2 and shale + rice husk ash 264.73 kg/cm2, all of which were higher than compressive strength. The compressive strength of concrete with lightweight aggregate shale + rice was husk 234.82 kg/cm2 and that of the shale was 212.23 kg/cm2 , which were lower than the designed compressive strength.Keywords : artificial lightweight aggregate, lightweight concrete, shale, sawdust, rice husk, rice husk ash AbstrakPenelitian bertujuan untuk mengetahui sifat fisis dan mekanis agregat ringan serta kuat tekan beton yang menggunakan agregat ringan. Pembuatan agregat ringan menggunakan komposisi campuran shale + serbuk gergaji kayu, shale + abu sekam padi, shale + sekam padi, serta shale. Pembuatan beton ringan struktural menggunakan rancangan campuran dengan kuat tekan rencana sebesar 25 MPa. Benda uji berbentuk silinder dengan diameter 10 cm dan tinggi 20 cm. Pengujian kuat tekan beton dilakukan pada umur 14 hari, 21hari dan 28 hari. Berat jenis agregat ringan kurang dari 1,5 dengan penyerapan air terbaik pada agregat ringan shale dan kekerasan terbaik pada agregat ringan shale + abu sekam padi. Kuat tekan beton agregat ringan shale + serbuk gergaji sebesar 265,04 kg/cm2 dan agregat ringan shale + abu sekam padi 264,73 kg/cm2 lebih tinggi dari kuat tekan rencana. Kuat tekan beton agregat ringan shale + sekam padi sebesar 234,82 kg/cm2 dan agregat ringan shale sebesar 212,23 kg/cm2 lebih rendah dari kuat tekan rencana.Kata kunci : agregat ringan buatan,beton ringan, shale, serbuk gergaji kayu, sekam padi, abu sekam padi
ANALISA KEGAGALAN PADA PIPA ULIR DI LINGKUNGAN PERMINYAKAN = FAILURE ANALYSIS OF TUBING-DRILL PIPES UNDER OIL ENVIRONMENT Suripto, Deden
Material Komponen dan Konstruksi Vol 14, No 2 (2014)
Publisher : Badan Pengkajian dan Penerapan Teknologi (BPPT)

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Abstract

The a research on the damage of tubing-drill pipes at an oil company, has been carried out. Failure of the component may be caused by many factors including material selection and their mishandling during in service. The objective of this research was to find out the reason of any failure or defects of a material during in, some testing methods were used, namely: visual and dimensions test, strength and hardness tests, macroscopic and microscopic test, the chemical analysis of material test, and SEM/EDS test. The results of proved that there were some corrosive elements such as the Cl and S-2 so that there was a the potential for the occurence of pitting and crevice corrosivation at the end of screws and these will be penetrated into the passivation layers of Fe2O3 that absorb aggressive anions such as Cl - and S-2.Keywords : failure analysis, drill pipe, corrosionAbstrak Penelitian terhadap kerusakan pada pipa ulir pada lingkungan perminyakan ,telah dilakukan. Kegagalan dari suatu komponen dapat disebabkan oleh berbagai macam faktor, mulai dari kesalahan pemilihan material sampai dengan kesalahan operator dalam service-nya. Tujuan penelitian adalah untuk mencari penyebab kegagalan terjadinya cacat pada material tubing setelah dioperasikan. Untuk mengetahui penyebabnya dilakukan analisa kegagalan dengan menggunakan beberapa metode, yaitu: pemeriksan visual dan dimensi, pengujian tarik dan kekerasan, pemeriksaan makroskopis dan mikroskopis, pengujian komposisi kimia bahan, dan pengujian SEM/EDS. Hasil penelitian membuktikan bahwa adanya unsur korosif dalam material seperti CL- dan S-2 sehingga sangat potensial untuk terjadinya serangan korosi sumuran maupun korosi celah kikisan pada ujung ulir dan akan berpenetrasi pada lapisan pasivasi Fe2O3 yang sifatnya mengabsorbsi anion-anion agresif seperti CL- dan S-2Kata kunci : analisis kegagalan, pipa ulir, korosi.
Co-Authors Nurul Aini Sulistyowati, Nurul Aini