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"Kebutuhan material dengan sifat mekanik yang baik serta berbobot ringan sudah semakin tinggi saat ini, terutama untuk aplikasi yang memerlukan performa tinggi. Komposit aluminium berpenguat Al2O3 (AMC) menawarkan keunggulan tersebut. Pada penelitian ini, fabrikasi komposit dilakukan menggunakan paduan aluminium 6061 dan penguat serbuk Al2O3 berukuran 60 μm. melalui proses stir casting. Dalam penelitian ini diketahui pengaruh penambahan kadar Al2O3 serta Mg sebagai agen pembasahan terhadap sifat mekanik komposit. Variasi kadar Al2O3 yang ditambahkan sebesar 10% dan 15% fraksi volume serta kadar Mg 8%, 10%, dan 15%. Hasil penelitian menunjukan bahwa kekuatan tarik optimal sebesar 170 Mpa diperolah pada komposit dengan kadar Al2O3 10% dan Mg 10%. Di mana kekerasan dan ketahanan aus komposit meningkat seiring penambahan kadar Al2O3 dan Mg. Demikian halnya porositas meningkat ketikat kadar Al2O3 yang ditambahkan semakin besar.

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Demand of materials with good mechanical properties and have lightweight increased in recent years especially for high performance applications. Aluminium reinforced Al2O3 composite (AMC) provide this superiority. In this research, composite was fabricated from Aluminium Alloy 6061 and 60 μm Al2O3 reinforce particles by stir casting process. This research investigated the effect of addition Al2O3 content and Mg as wetting agent to mechanical properties of composite. The addition of Al2O3 into Al melt was 10% and 15% of volume fraction and Mg was 8%, 10%, and 15%. The result showed that the optimum tensile strength of 202 Mpa was obtained in composite with 10% volume fraction of Al2O3 and 10% Mg. Moreover, hardness and wear resistant of composite increased with the addition of Al2O3 and Mg content. Porosity also increased when greater amount of Al2O3 content was added."

"Kebutuhan akan material yang memiliki sifat mekanik yang baik serta berbobot ringan sudah semakin tinggi saat ini, terutama untuk aplikasi yang memerlukan performa tinggi. Komposit aluminium berpenguat Al2O3 (AMC) menawarkan keunggulan tersebut. Pada penelitian ini, fabrikasi komposit dilakukan menggunakan paduan aluminium 6061 dan penguat serbuk Al2O3 berukuran 60μm melalui proses stir casting. Dalam penelitian ini diketahui pengaruh penambahan kadar Al2O3 serta Mg sebagai agen pembasahan terhadap sifat mekanik komposit. Variasi kadar Al2O3 yang ditambahkan sebesar 10% dan 15% fraksi volume serta kadar Mg 8%, 10%, dan 15%.Hasil penelitian menunjukkan bahwa kekuatan tarik optimal sebesar 202 MPa diperoleh pada komposit dengan kadar Al2O3 10% dan Mg 10%. Selain itu, kekerasan dan ketahanan aus komposit meningkat seiring penambahan kadar Al2O3 dan Mg. Porositas juga meningkat ketika kadar Al2O3 yang ditambahkan semakin besar.

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Demand of materials with good mechanical properties and have light weight increased in recent years especially for high performance applications. Aluminium reinforced Al2O3 composite (AMC) provide this superiority. In this research, composite was fabricated from Aluminium Alloy 6061 and 60 μm Al2O3 reinforce particles by stir casting process. This research investigated the effect of addition Al2O3 content and Mg as wetting agent to mechanical properties of composite. The addition of Al2O3 into Al melt was 10% and 15% of volume fraction and Mg was 8%, 10%, and 15%.

The result showed that the optimum tensile strength of 202 MPa was obtained in composite with 10% volume fraction of Al2O3 and 10% Mg. Moreover, hardness and wear resistant of composite increased with the addition of Al2O3 and Mg content. Porosity also increased when greater amount of Al2O3 content was added."

"Komposit paduan aluminium 6061 berpenguat alumina memiliki potensi untuk memiliki sifat mekanik yang baik dengan massa yang rendah. Pada penelitian ini, persentase volume fraksi alumina yaitu 5%, 10%, 15%, dan 20% dilakukan untuk mengetahui titik optimum dari keempat variasi tersebut. Selain itu, magnesium dengan volume fraksi 8% ditambahkan sebagai agen pembasahan antara matriks aluminium dengan penguat alumina. Proses pengecoran aduk digunakan pada pembuatan komposit ini karena memiliki keuntungan secara ekonomis dibandingkan metode lainnya.Hasil penelitian menunjukkan bahwa peningkatan kekuatan tarik dengan titik optimum pada volume fraksi 10% hingga mencapai 190 MPa. Selain itu, sifat kekerasan meningkat seiring dengan penambahan penguat alumina yang juga menyebabkan turunnya laju keausan. Porositas juga meningkat seiring dengan penambahan penguat alumina. Peningkatan sifat mekanis terjadi pada komposit paduan aluminium berpenguat alumina dibandingkan dengan paduan aluminium tanpa penguat.

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Aluminium alloy 6061 composite strengthened by alumina has the potential to have good mechanical properties with low mass. In this study, the percentage of alumina volume fraction 5%, 10%, 15%, and 20% performed to determine the optimum point of the fourth variation. In addition, the volume fraction of magnesium with 8% added as a wetting agent between aluminium with reinforcing alumina. Stir casting process used in the manufacture of composite because it has economic advantages over other methods.

The results showed that the increase in tensile strength with the optimum point on the volume fraction of 10% to reach 190 MPa. In addition, the nature of hardness increased with the addition of alumina which also cause a decrease in the wear rate. Porosity also increases with the addition of alumina. Improved mechanical properties of aluminium alloys occurs in aluminium alloy 6061 composite strengthened by alumina compared with aluminium alloy without reinforcement."

"[Komposit bermatriks aluminium dengan penguat partikel Al2O3 berukuran nano umum digunakan untuk aplikasi dengan performa yang tinggi karena aluminium memiliki sifat ringan dan Al2O3 memiliki performa yang baik pada suhu tinggi. Pada penelitian ini, penambahan Al2O3 dengan fraksi volum 0,2%, 0,5%, 0,7%, 1,0%, and 1,2% dilakukan untuk menentukan titik optimum dari kelima komposisi. Magnesium sebanyak 10 wt.% ditambahkan sebagai wetting agent. Hasil penelitian menunjukkan kekuatan optimum dicapai dengan penambahan fraksi volum nano-Al2O3 sebanyak 0,2% dengan 200,84 MPa dan keuletan yang baik, didukung dengan rendahnya porositas, rendahnya aglomerasi, dan pembentukan dimple pada permukaan patah.

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Aluminium Matrix Composites (AMCs) reinforced with nano-sized Al2O3 particles are widely used for high performance application because aluminium has light weight and alumina has good performance at high temperature. In this study, the percentage of nano-sized Al2O3 with volume fraction 0.2%, 0.5%, 0.7%, 1.0%, and 1.2% are performed to determine the optimum point of the fifth variation. Magnesium with 10 wt.% are added as a wetting agent. The result showed the optimum strength was reached by 0.2 %Vf nano-Al2O3 reinforced composite with 200.84 MPa and enough ductility, supported by evidence low porosity, low agglomeration, and dimples formation on SEM image.

, Aluminium Matrix Composites (AMCs) reinforced with nano-sized Al2O3 particles are widely used for high performance application because aluminium has light weight and alumina has good performance at high temperature. In this study, the percentage of nano-sized Al2O3 with volume fraction 0.2%, 0.5%, 0.7%, 1.0%, and 1.2% are performed to determine the optimum point of the fifth variation. Magnesium with 10 wt.% are added as a wetting agent. The result showed the optimum strength was reached by 0.2 %Vf nano-Al2O3 reinforced composite with 200.84 MPa and enough ductility, supported by evidence low porosity, low agglomeration, and dimples formation on SEM image.

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"[Penelitian kali ini adalah berfokus pada penguatan matriks guna mendukung sifat optimum material komposit. Penguatan matriks dilakukan dengan penambahan Al-5Ti-1B dan Al-15Sr sebagai pemodifikasi matriks serta penambahan Mg sebanyak 10 wt% sebagai agen pembasahan pada komposit. Penambahan unsur modifikasi, seperti Al-5Ti-1B bertujuan sebagai agen penghalus butir dan Al-15Sr sebagai pemodifikasi dari senyawa fasa kedua yang terbentuk pada matriks paduan aluminium. Komposit pada penelitian kali ini mencapai sifat optimum pada penambahan Ti dan Sr menjadi 0.031 wt% dan 0.06 wt%. Kehadiran unsur Ti dan Sr yang ditambahkan dalam paduan matriks menghasilkan bentuk dendrit yangterfragmentasi menjadi globular yang halus dengan dispersi fasa yang diduga adalah Mg2Si dalam morfologi chinese script yang bertransformasi menjadi fibrous kecil dan halus. Selain itu juga tidak ditemukannya fasa berbentukjarum atau platelet yang tajam yang berkontribusi terhadap deteorisasi dan penggetasan, seperti Al3Fe dalam paduan ini. Struktur yang dimiliki oleh komposit ini dianggap menjadi struktur yang baik untuk menunjang karakteristik matriks. Hal ini dipercaya sebagai alasan tingginya nilaikekuatan tarik serta keuletan yang dimiliki material. Lalu, permukaan patahan pada komposit ini juga menunjukkan kombiinasi dari patah ulet dan getas.

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The research is focused on the strengthening process of the matrix to give an outstanding characteristic of composite material. Strengthening the matrix is done by modification of Al-5Ti-1B dan Al-15Sr addition with 10 wt% Mg addition as the wetting agent. Addition of Al-5Ti-1B acts as grain refinement agent which provide more nucleating siteand restrict the growth of grains and

Al-15Sr acts as modifiers of the morphology of the second phase particles. The optimization of the composite characteristics is also followed by the maintenance of the casting process which is followed by degassing process.

After the casting process is done, the examination of mechanical properties, chemical composition and examination of the microstructure will be held. The optimum composition of the composite in this research is on the addition of Ti and Sr to be 0.031 wt% dan 0.06 wt%. These elements added to matrix give the fragmented dendritic-like structure of the (Al) as the matrix with the second phases, Mg2Si dispersed in the matrix have the fine morphology also. Then, there is observed no deteoriation morphology of phases like Al3Fe which is used to be needle like or platelet like. This morphology structure is considered to the best and wanted structure to the matrix and will give optimum characteristics. It is considered that this morphology of the composite is the reason of achieving highest UTS along with increasing in

ductility. In the observation of the fractograph, it is found that the mode of fracture is categorized to be the combination of ductile and brittle fracture mode., The research is focused on the strengthening process of the matrix to give an

outstanding characteristic of composite material. Strengthening the matrix is

done by modification of Al-5Ti-1B dan Al-15Sr addition with 10 wt% Mg

addition as the wetting agent. Addition of Al-5Ti-1B acts as grain refinement

agent which provide more nucleating siteand restrict the growth of grains and

Al-15Sr acts as modifiers of the morphology of the second phase particles.

The optimization of the composite characteristics is also followed by the

maintenance of the casting process which is followed by degassing process.

After the casting process is done, the examination of mechanical properties,

chemical composition and examination of the microstructure will be held.

The optimum composition of the composite in this research is on the addition

of Ti and Sr to be 0.031 wt% dan 0.06 wt%. These elements added to matrix

give the fragmented dendritic-like structure of the (Al) as the matrix with the

second phases, Mg2Si dispersed in the matrix have the fine morphology also.

Then, there is observed no deteoriation morphology of phases like Al3Fe

which is used to be needle like or platelet like. This morphology structure is

considered to the best and wanted structure to the matrix and will give

optimum characteristics. It is considered that this morphology of the

composite is the reason of achieving highest UTS along with increasing in

ductility. In the observation of the fractograph, it is found that the mode of

fracture is categorized to be the combination of ductile and brittle fracture

mode.]"

"Komposit aluminium 6061 dengan partikel penguat nano SiC sudah banyak dikembangkan untuk aplikasi yang membutuhkan sifat mekanis yang baik dengan densitas yang rendah. Dalam rangka mencapai performa yang lebih baik, perlakuan panas T6 diberikan untuk meningkatkan sifat mekanis material komposit. Pada penelitian ini dilakukan proses perlakuan panas T6 dengan variasi waktu aging 2 jam, 4 jam, 6 jam, 8 jam, dan 10 jam pada temperatur 175°C. Solution treatment dilakukan pada temperatur 440°C selama 1 jam. Hasil penelitian menunjukkan bahwa waktu optimum aging adalah 10 jam yang ditandai dengan hasil kekerasan paling tinggi yaitu sebesar 66,22 HRB dan laju aus paling rendah yaitu sebesar 1,09 x 10-6 mm3/mm. Pengaruh perlakuan panas T6 terhadap hasil uji tarik sangat rendah akibat adanya porositas. Hasil struktur mikro dari mikroskop optik dan SEM menunjukkan adanya fasa α-Al, Mg2Si biner (Al+Mg2Si), dan fasa intermetalik β-Al2Mg3.

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Aluminum 6061 composites reinforced by SiC nanoparticles has been widely used for high performance applications with low denstity. In order to obtain a better performance, artificial aging is conducted to improve mechanical properties of composite. In this study, aging treatment was done with varying aging time: 2h, 4h, 6h, 8h, and 10h at 175°C with solution treatment at 440°C for 1h. The results showed that the optimum aging time was achieved by 10h with the highest hardness up to 66,22 HRB and wear rate reached the lowest value by 1,09 x 10-6 mm3/mm. Heat treatment process did not show a strong influence to tensile strength due to a porosity. OM and SEM observation exhibit α-Al and binary Mg2Si (Al+Mg2Si) phases, and intermetallic phases of β-Al2Mg3."

" ABSTRAK Penambahan partikel penguat nano SiC dalam material komposit mampu meningkatkan sifat mekanis namun tetap mempertahankan keuletan dari material komposit, hal tersebut dicapai ketika terjadi distribusi partikel penguat yang merata sehingga mencegah terbentuknya aglomerasi yang mampu meningkatkan porositas material komposit. Penambahan grain refiner Ti-B serta modifier Sr kedalam material komposit Al-Mg-Si berpenguat partikel nano SiC ditujukan untuk melakukan penghalusan butir pada matriks dengan menghasilkan agen nukleasi Al3Ti serta melakukan modifikasi terhadap eutectic Al-Si yang terbentuk. Magnesium sebesar 10 Vf juga ditambahkan sebagai agen pembasah agar didapatkan ikatan yang kuat pada area antarmuka matriks dengan penguat partikel nano SiC. Pada penelitian ini digunakan variasi penambahan grain refiner yaitu 0.0272, 0.0305, 0.0321, 0.0389, dan 0.0434 wt . dengan modifier Sr yang relatif tetap sebesar 0.030 wt untuk mengetahui titik optimal penambahan grain refiner dalam material komposit. Hasil dari penelitian ini menunjukan penambahan grain refiner Ti sebesar 0,0303 wt menghasilkan reduksi ukuran butir secara signifikan kemudian dengan penambahan Ti yang semakin meningkat reduksi ukuran butir yang dihasilkan tidak menunjukan peningkatan secara signifikan, sedangkan modifier Sr memiliki pengaruh terhadap perubahan ukuran dari fasa intermetalik Fe yang terkandung pada material komposit akibat dari tidak terbentuknya fasa eutectic Al-Si pada material komposit, kedua hal tersebut mempengaruhi sifat mekanis yang dihasilkan. Kekuatan tarik menunjukan hubungan optimal pada komposisi 2 sebesar 226,53 MPa sedangkan kekerasan serta laju aus menunjukan hubungan maksimal terhadap peningkatan kandungan grain refiner Ti pada material komposit berpenguat partikel nano SiC dengan modifier Sr.

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ABSTRACT The addition of nanoparticle SiC reinforcement in composite materials can improve mechanical properties but retaining the ductility of the composite material, this is achieved when distribution of reinforcement is uniform to prevent the formation of agglomeration which able to increase the porosity of the composite material. The addition of Ti B grain refiner and Sr modifier into the composite material is intended to perform grain refinement of the matrix by generating a nucleating agent Al3Ti and modification to the Al Si eutectic formed. 10 Vf of magnesium were used as wetting agent to achieve strong interface bonding. In this present work, variation of grain refiner Ti addition that is 0.0272, 0.0303, 0.0321, 0.0389, and 0.0434 wt . with modifier Sr with a relatively fixed amount that is 0.030 wt to determine the optimal point addition of grain refiner in composite materials. The results of this study showed the addition of grain refiner Ti 0.0303 wt resulting in a reduction of grain size significantly, later with the increase addition of Ti, reduction of the grain size did not show significant improvement, while the effect of modifier Sr showed changes in the size of intermetallic phases of Fe contained in the composite material, as a result of absence Al Si eutectic phase in the composite material, both of these affect the mechanical properties of composite materials. Ultimate tensile strength result, showed the optimal corelation at the composition 2 up to 226,53 MPa while hardness and rate of wear shows maximal correlation to the increased content of grain refiner Ti in composite materials reinforced with nanoparticle SiC and addition of Sr modifier."