I Made Jiwa Astika scite author profile

I Made Jiwa Astika

5Publications

12Citation Statements Received

1Citation Statement Given

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Affiliations

Udayana University, Sekolah Tinggi Teknik Surabaya, University of Brawijaya

Publications

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Properties of thermal conductivity, density and hardness of aluminium matrices with reinforcement of sicw / al₂o₃ hybrid after sintering process

Suarsana

Astika

Sunu

2019

IOP Conf. Ser.: Mater. Sci. Eng.

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The material of composite hybrid Al / (SiCw + Al2O3) is a mixture of fine aluminium powder as a matrix while Silicon Carbide whiskers (SiCw) and Alumina (Al2O3) as reinforcement. Powder metallurgy method is used to manufacture composites according to the form of test specimens. Testing without treatment and after sintering treatment with temperature parameters and sintering time of 500 and 600°C at holding time 6 hours. This research was conducted to know the properties of thermal conductivity, hardness, density and SEM analysis after sintering process. The results show that the sintering process that has been carried out can provide a percentage increase and affect the composite properties. Improved thermal, hardness and density occurs due to stronger or denser interface bonds between the matrix and reinforcement influenced by increasing sintering temperatures, so sintering processes can affect composites on physical and mechanical properties.

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Karakterstik Serapan Suara Komposit Polyester Berpenguat Serat Tapis Kelapa

Astika

Dwijana²

2016

DTM

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The purpose of this study is to investigate of sound absorption of coconut filter fiber composites. The research material made with coconut filter fiber as reinforcement and matrix resin unsaturated polyester (UPRs) type Yukalac BQTN 157 with 1% hardener types MEKPO (Methyl Ethyl Ketone Peroxide) and fiber treatment by 0,5% KMnO4. Production methods is poltrusion and the variations of fiber volume fraction are 20, 25 and 30% and fiber length are 5, 10 and 15 mm. Testing of sound absorption frequency are 250, 500, 1000, 2000 and 4000 Hz. The results of research show that the highest value of sound absorption coefficient is on the composites with composition of 10 mm fiber length and 30% fiber volume fraction, that is 0.550828. The values are included in the class “Sound Absorption Coefficient Class D (Extremely absorbing)” with the range 0.40 – 0.60 based on ISO standard 11654:1997.

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Hardness Distribution and Effective Case Depth of Low Carbon Steel after Pack Carburizing Process under Different Carburizer

Negara

Muku

Sugita

et al. 2015

AMM

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This research is concerned with the effect of different carburizers on hardness distribution, effective case depth and microstructure of low carbon steel after pack carburizing process. Carburizers to be used were combination of energizer (BaCO3), goat bone charcoal and bamboo charcoal with five different compositions. The specimens were heated to temperature of 950°C, soaked at the temperature for 4 hours and quenched in the water. After the process, microstructures of specimen were observed, the hardness was measured using Vikers method and effective case depths were calculated. The results obtained showed that for all types of carburizer used, the hardness were scattered from surface to the core with lower hardness level. Carburizer composition of 20% BaCO3 + 80% goat bone charcoal produced the highest hardness ( 789.273 HV1) at 0.2 mm from the surface, however, it yielded the lowest effective case depth (0.52 mm). The highest effective case depth of 1 mm was obtained using carburizer composition of 20% BaCO3 + 60% goat bone charcoal + 20% bamboo charcoal. Meanwhile, the original structures of raw material which consist of ferrite and pearlite transformed to hard martensite constituent in the surface after pack carburizing.

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Development and Characterization of Activated Carbons Derived from Lignocellulosic Material

Negara

Nindhia

Lusiana³

et al. 2020

MSF

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Activated carbon is a multipurpose material due to its unique properties such as high surface area and pore volume. The reduced carbon source from coal has led to the development of activated carbon from lignocellulosic material. However, there is limited literature reported the use of swat bamboo (Gigantocholoa verticillata) as an activated carbon precursor. In this research, swat bamboo has been converted to activated carbons under different carbonization temperatures of 550, 650, and 750OC and activation durations of 1.5 and 2 h. The results show that at activation time of 1.5 h, increasing carbonization temperature affecting the higher pore volume and surface area gained. The optimal characteristics of activated carbon were obtained at a carbonization temperature of 750OC and activation time of 1.5 h. This due to the activated carbon produced in this condition has the highest pore volume, surface area, and adsorption capacity of 0.138 cm3/g, 135.30 m2/g, and 95.776 cm3/g, respectively. Its average pore diameter was 2.053 nm with fix carbon of 75.26% and C of 76.79%. It has a monomodal pore size distribution with the highest adsorption of 0.056 cm3/g/nm occurred at a pore size of 1.516 nm.

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Internal and External Enviromental Strategy Analysis Using SWOT Matrix and QSPM

Astika

Suharyo

2021

IJPSAT

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The aim of the research to develop Internal and External Enviromental Strategies that can be applied for Primary Naval Cooperative Institutions company (PNCI). By using the SWOT matrix and Quantitative Strategic Planning Matrix (QSPM), alternative strategies in getting that maintains the image of PNCI company, facilities PNCI, maintaining the quality and service of products to attract consumers, increase the ability of management and cooperation for the purpose PNCI, service delivery order for consumers, utilizing technological advances to Enviromental, serving the lower middle market segment by providing a package and a special portion, and maintaining good relationships with suppliers or the surrounding area.

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