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"Friction-stir welding (FSW) is a solid-state joining process primarily used on aluminum, and is also widely used for joining dissimilar metals such as aluminum, magnesium, copper and ferrous alloys. Recently, a friction-stir processing (FSP) technique based on FSW has been used for microstructural modifications, the homogenized and refined microstructure along with the reduced porosity resulting in improved mechanical properties. Advances in friction-stir welding and processing deals with the processes involved in different metals and polymers, including their microstructural and mechanical properties, wear and corrosion behavior, heat flow, and simulation. The book is structured into ten chapters, covering applications of the technology, tool and welding design, material and heat flow, microstructural evolution, mechanical properties, corrosion behavior and wear properties. Later chapters cover mechanical alloying and FSP as a welding and casting repair technique; optimization and simulation of artificial neural networks; and FSW and FSP of polymers."

"This book covers the rapidly growing area of friction stir welding. It also addresses the use of the technology for other types of materials processing, including super-plastic forming, casting modification, and surface treatments."

"This book provides an overview of friction stir welding and friction stir spot welding with a focus on aluminium to aluminium and aluminium to copper. It also discusses experimental results for friction stir spot welding between aluminium and copper, offering a good foundation for researchers wishing to conduct more investigations on FSSW Al/Cu. Presenting full methodologies for manufacturing and case studies on FSSW Al/Cu, which can be duplicated and used for industrial purposes, it also provides a starting point for researchers and experts in the field to investigate the FSSW process in detail. A variant of the friction stir welding process (FSW), friction stir spot welding (FSSW) is a relatively new joining technique and has been used in a variety of sectors, such as the automotive and aerospace industries. The book describes the microstructural evolution, chemical and mechanical properties of FSW and FSSW, including a number of case studies."

"Friction Stir Welding (FSW) adalah suatu teknologi pengelasan yang merupakan proses solid-state joining yang bisa digunakan untuk menyambungkan material yang berbeda, karakter awal base material bisa dipertahankan dan juga tidak memerlukan bahan tambah (filler). Distorsi dari hasil proses FSW sangat rendah dikarenakan prosesnya dalam keadaan padat sehingga defleksi setelah pengelasan bisa diminimalisir dengan kekuatan sebanding dengan proses pengelasan lain dan juga dapat diaplikasikan pada material-material yang sulit dilas bila menggunakan metode konvensional atau teknik penyambungan lain seperti solder atau rivet. Tipe sambungan pada FSW yang akan dilakukan adalah tipe Lap Welding dan Spot Welding. Adapun parameter yang akan digunakan adalah kecepatan putaran tool, kecepatan translasi tool (feeding), kemiringan tool saat proses pengelasan, dan desain mata pisau tool. Mesin yang digunakan pada proses ini yaitu mesin CNC tipe adjustable vertical milling machine sehingga hasil tiap langkah proses pengelasan akan seragam Untuk mengetahui kekuatan mekanik dari spesimen maka dilakukan uji kekasaran permukaan (surface rougness) dan uji tarik untuk setiap specimen yang berbeda tiap parameternya. Hasil analisis data dengan menggunakan metode Grafik, Chi Square, dan Response Surfece Methodology (RSM) menunjukkan bahwa setiap parameter yang digunakan pada proses FSW mempengaruhi kekuatan mekanik dan kekasaran permukaan pada material hasil pengelasan.

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Friction Stir Welding (FSW) is a welding technology which is a solid-state joining process that can be used to connect different materials. The initial character of the base material can be maintained and also does not require the added material (filler). Distortion of the FSW process is very low due to the process in the solid state so that the deflection after welding can be minimized with the strength compare to other welding processes, FSW can also be applied to materials that are difficult to weld when using conventional methods or other sewing techniques such as Solder or Rivet.

In this study, the type of connection with FSW method are Lap Welding and Spot Welding. The parameters were the tool rotation speed, translational speed of the tool (feeding), the slope of the tool when the welding process, and tool shape. Machine that used in this process was the adjustable CNC vertical milling machine so that the results of each step of the welding process will be uniform. To find the mechanical strength of the performed test specimens surface roughness and tensile test for each different specimens each parameter were investigated.

The results of data analysis using Graph Method, Chi Square, and Response Surface Methodology (RSM) showed that each parameter used in the FSW process influences to mechanical strength and surface roughness of welded materials."

"Teknik pengelasan banyak diaplikasikan dalam proses penyambungan karena karakteristiknya yang lebih ringan dan prosesnya yang relatif sederhana, sehingga biaya yang diperlukan jadi relatif murah. Friction stir welding (FSW) merupakan metode pengelasan yang diciptakan dan dikembangkan oleh The Welding Institue (TWI) pada tahun 1991. Prinsip Kerja dari FSW adalah memanfaatkan gesekan dari tool yang berputar dan bergerak pada alur pengelasan dengan benda kerja yang diam. Parameter pengelasan meliputi kecepatan putar, kemiringan tool, kecepatan tempuh, penetrasi shoulder, penetrasi probe, bentuk dan dimensi probe, bentuk dan dimensi shoulder, material tool, dll. Parameter-parameter pengelasan biasanya dipublikasi untuk lingkungan yang terbatas dan sedikit dipublikasikan untuk umum. Oleh karena itu tujuan dari penelitian ini adalah mengembangkan proses FSW pada material AC4CH dimana pengembangan difokuskan pada design tool, pemilihan mesin, persiapan material uji, perubahan parameter kecepatan putar, kemiringan tool dan bentuk dari probe tool serta sejauh mana korelasi antara parameter tersebut dengan visual hasil pengelasan (flashing dan kekasaran permukaan sambungan). Dari penelitian ini bahwa pengembangan metode friction stir welding (FSW) untuk material AC4CH dapat menggunakan mesin milling universal Dahlih DL-GH950 dengan material tool SLD8 (58-63 HRC). Variasi parameter kecepatan putar, kemiringan tool dan bentuk dari probe mempunyai mean yang merata atau dengan kata lain variasi dari parameter tersebut tidak berpotensi merubah flashing dan kekasaran dari permukaan pengelasan.

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Welding technique has widely applied in the process of joining because the process is relatively simple, so that the cost can be inexpensive. Friction stir welding (FSW) is a welding method that was created and developed by The Welding Institute (TWI) in 1991 which at the beginning of his research was applied to the alumunium. The principle of FSW is to use the friction of the rotating tool and moving the groove welding with a fixed workpiece. The welding parameters include the rotational speed, tool attitude (tool tilt), the travel speed, shoulder plunge, probe penetration, shape and dimensions of the probe, shape and dimensions of shoulder, tool material, etc. Welding parameters are usually published for a limited environment and rarely published for the public.

Therefore, the purpose of this research is to develop the process FSW for material AC4CH in which development is focused on changing the rotational speed parameter, tilt of the tool and shape of the probe and the extent of the correlation between these parameters with the visual results of welding (flashing and surface roughness of weld joint).

In this study that the development methods of friction stir welding (FSW) for the material AC4CH used a universal milling machine DL-GH950 Dahlih with SLD8 tool material (58-63 HRC). Parameter variation such as rotational speed, tilt of the tool and shape of the probe has a uniform mean or in other words, the variation of these parameters did not substantially change the flashing and the roughness weld joint surface of the welding."

"Studi penelitian ini membandingkan hasil perbaikan pengelasan (welding repair) antara metode Friction Stir Welding (FSW) dengan Gas Tungsten Arc Welding pada sambungan las Aluminium 5083 tebal 6 mm. Empat sampel Aluminium dilas dengan metode FSW menggunakan mesin frais dengan kecepatan las 29 mm/menit, kecepatan rotasi 1555 rpm dan panjang pin tool 5,0 mm berbentuk silinder berulir. Dua sampel dari hasil pengelasan tersebut dilas perbaikan dengan metode FSW dengan kondisi sama dengan proses awal, dengan satu sampel dengan kondisi posisi terbalik yang mana bagian akar las dijadikan bagian muka las perbaikan. Satu sampel lainnya dilas perbaikan dengan metode GTAW seluruhnya.Dari pengujian menunjukkan bahwa kekuatan tarik, kekerasan, makro dan struktur mikro hasil pengelasan repair GTAW lebih baik dari proses FSW. Hal ini disebabkan masukan panas (temperatur) dari pengelasan FSW kurang maksimal, sehingga mengakibatkan terjadnya ketidaksempurnaan pada hasil lasannya.

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This research study to compare the results of repair welding (welding repair) the method of Friction Stir Welding (FSW) with Gas Tungsten Arc Welding the weld joints 6 mm thick 5083 aluminum. Four samples of aluminum welded with FSW method using a milling machine with a welding speed of 29 mm / min, the rotational speed of 1555 rpm and a length of 5.0 mm pin tool cylindrical threaded. Two samples of the weld the welded repairs to the FSW method with the same conditions with the initial process, with one sample with the conditions upside down which part of the root weld is made part of the face of the weld repair. One other sample GTAW welded repair method entirely.

From the test showed that the tensile strength, hardness, macro and microstructure results GTAW welding repair is better than FSW process. This is due to the input of heat (temperature) of the welding FSW less than the maximum, resulting in terjadnya imperfections on weld join results."

"[ABSTRAKTeknologi Friction stir welding (FSW) menjadi alternatif proses penyambungan aluminium yang relatif sederhana, bahkan dalam beberapa hal memiliki kelebihan jika dibanding dengan cara konvensional (misalnya: proses las, proses keling dsb.).Proses FSW memerlukan mesin perkakas yang memiliki kekakuan terhadap gaya (aksial dan transversal) dan ketelitian gerak yang baik, agar mampu menahan gaya reaksi dalam proses FSW. Proses FSW untuk material lunak dan tipis tidak membutuhkan mesin perkakas yang kokoh, bahkan bisa menggunakan mesin freis (milling machine) atau mesin gurdi (drilling machine) dengan mengganti pahat (tools) dan parameter proses FSW yang sesuai.Kebutuhan struktur ringan pada industri transportasi menjadi topik penelitian utama, dengan tujuan mengurangi berat struktur, tetapi tidak mengurangi kekuatan dan kualitas struktur. Kebutuhan informasi teknologi FSW untuk penyambungan plat tipis dan konstruksi ringan sangat dibutuhkan di industri. Proses penyambungan plat aluminium tipis (tebal < 1mm) dan untuk membatasi kerusakan akibat gaya dan panas berlebihan, membutuhkan teknologi dan peralatan khusus.Tujuan penelitian ini adalah mengembangkan proses micro Friction Stir Welding (μFSW) dan meneliti hubungan parameter μFSW terhadap kualitas hasil las, dan mencari parameter optimum menggunakan metode Neural Network (NN) dan Genetic Algorithm (GA), serta pembuatan simulasi temperatur μFSW. Pada penelitian disertasi ini akan terbagi menjadi dua bagian yaitu, yang pertama adalah uji eksperimental dan pembuatan model matematik. Pada bagian kedua adalah penelitian aplikasi proses micro Friction Stir Welding pada pembuatan struktur ringan.Diharapkan dengan penelitian disertasi ini akan; 1) mengetahui efek parameterparameter pengelasan terhadap respon dan kualitas pada micro Friction Stir Welding, dan 2) memberikan usulan metode pemilihan parameter yang optimum. Penelitian berhasil mendapatkan parameter proses μFSSW pada aluminium A1100 yang menghasilkan temperatur las lebih dari 460 oC (yaitu 0,8.Tm, Melting Temperature), merupakan batas temperatur minimal untuk menghasilkan kualitas sambungan las yang baik. Uji kualitas las dibuktikan dengan hasil uji mekanik dan struktur mikro. Parameter proses ini telah diterapkan pada proses penyambungan aluminium tipis untuk pembuatan struktur ringan honeycomb.

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ABSTRACT

Friction Stir Welding is a relatively new technique for joining metal. In some cases on aluminum joining, FSW gives better results compared with the arc welding processes, including the quality of welds and produces less distortion. Research on friction stir welding has been done, but data results are difficult to obtain by manufacturing engineers/workshop, unlike other process parameter data, for example: Milling process data, Turning process data, grinding process data. The ultimate goal of this research is to build a model and simulation process of micro Friction Stir Welding (μFSW), which is main parameters, the force that occurs, the quality of results and the mechanical properties of FSW welds.

Research will investigate the relationship between different parameters in FSW aluminum A1100, 0.4 mm thickness. The goal is to develop a mathematical model that establishes the relationship between multiple input and multiple outputs. As part of this research, will be investigated material changes in temperature, forces, torque and tool wear as a function of output parameters and explore their interactions. Experimental design (DoE) will be used and data analysis using Neural network Methodology and Genetic Algorithm.

Research found the optimum μFSSW parameters, which is weld temperature higher than 460 oC (mean 0,8.Tm, Melting Temperature). The welds qualities were measurred by shear load test, micro structure test, micro hardness test, and composition test. The optimum μFSSW parameters were applied to build the light structure honeycomb., Friction Stir Welding is a relatively new technique for joining metal. In somecases on aluminum joining, FSW gives better results compared with the arcwelding processes, including the quality of welds and produces less distortion.Research on friction stir welding has been done, but data results are difficult toobtain by manufacturing engineers/workshop, unlike other process parameterdata, for example: Milling process data, Turning process data, grinding processdata. The ultimate goal of this research is to build a model and simulation processof micro Friction Stir Welding (μFSW), which is main parameters, the forcethat occurs, the quality of results and the mechanical properties of FSW welds.Research will investigate the relationship between different parameters in FSWaluminum A1100, 0.4 mm thickness. The goal is to develop a mathematicalmodel that establishes the relationship between multiple input and multipleoutputs. As part of this research, will be investigated material changes intemperature, forces, torque and tool wear as a function of output parameters andexplore their interactions. Experimental design (DoE) will be used and dataanalysis using Neural network Methodology and Genetic Algorithm..Research found the optimum μFSSW parameters, which is weld temperaturehigher than 460 oC (mean 0,8.Tm, Melting Temperature). The welds qualitieswere measurred by shear load test, micro structure test, micro hardness test, andcomposition test. The optimum μFSSW parameters were applied to build the lightstructure honeycomb.]"

"Proses Friction Stir Spot Welding (FSSW) adalah variasi dari friction stir welding (FSW) yang memuyai potensi besar untuk mengganti proses penyambungan single-spot seperti resistance spot welding (RSW) dan rivet. Dalam beberapa tahun terakhir,proses FSSW dengan dissimilar material sudah banyak menarik perhatian dalam berbagai macam sektor industri seperti otomotif, kelistrikan, pendingin, luas angkasa, dan lainnya. Studi literatur ini membahas geometeri pahat, struktur makro, struktur mikro (aliran material dan IMC), sifat mekanis (kekerasan mikro dan sifat tarik), dan cacat las pada proses FSSW aluminium-aluminium, aluminium-tembaga, aluminium-baja dan aluminium-magnesium. Banyak peneliti telah melakukan berbagai macam pengelasan FSSW namun masih banyak celah antara penelitian yang telah dilakukan dengan aplikasi industri yang sesungguhnya. Terdapat kesamaan antara proses FSSW dengan berbagai material yang telah disebutkan, seperti diameter pin yang semakin panjang meningkatkan pengadukan dalam proses pengelasan, kedalaman tusuk dan kecepatan putar yang semakin besar mengakibatkan bertambahnya jumlah flash, ukuran grain pada stir zone, ketebalan IMC dan beban geser. Nilai kekerasan di bawah pin dekat lubang kunci diketahui lebih tinggi dari daerah lainnya, Cacat las yang paling sering ditemukan dalam studi literatur ini adalah retak.

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Friction Stir Spot Welding (FSSW) process is a variation of the Friction Stir Welding (FSW) which has a great potential to change the single-spot connection process such as Resistance Spot Welding (RSW) and rivet. In recent years, the FSSW process with dissimilar material has attracted many attention in various industrial sectors such as automotive, electricity, cooling, aerospace, and others. This literature study discusses tool geometry, macrostructure, microstructure (material flow and IMC), mechanical properties (micro hardness and tensile properties), and welding defects in the FSSW aluminum-aluminum, aluminum-copper, aluminum-steel and aluminum-magnesium processes. Many researchers have conducted various kinds of FSSW welding but there are still many gaps between the research that has been carried out with actual industrial applications. There is a similarity between the FSSW process with various materials mentioned, such as the longer diameter of the pin increasing the stirring in the welding process, the greater plunge depth and rotational speed resulting in an increase in the number of flashes, grain size in the stir zone, IMC thickness and shear loads. The hardness value under the pin near the keyhole is known to be higher than other areas. The welding defects most commonly found in this literature study are cracks."

"This book describes the fundamentals of residual stresses in friction stir welding and reviews the data reported for various materials. Residual stresses produced during manufacturing processes lead to distortion of structures. It is critical to understand and mitigate residual stresses. From the onset of friction stir welding, claims have been made about the lower magnitude of residual stresses. The lower residual stresses are partly due to lower peak temperature and shorter time at temperature during friction stir welding. A review of residual stresses that result from the friction stir process and strategies to mitigate it have been presented. Friction stir welding can be combined with additional in-situ and ex-situ manufacturing steps to lower the final residual stresses. Modeling of residual stresses highlights the relationship between clamping constraint and development of distortion. For many applications, management of residual stresses can be critical for qualification of component/structure."

"Friction Stir Welding (FSW) yang ditemukan di The Welding institute (TWI), Inggris pada tahun 1991 merupakan teknik pengelasan pada kondisi padat (solid-state) sehingga memiliki keuntungan seperti tingkat deformasi yang rendah serta tidak ada material terbakar sehingga kadar asap yang dihasilkan rendah. Pada awalnya diaplikasikan pertama kali pada material aluminium. Konsep dasar pengelasan ini sangat sederhana, yaitu perkakas (tool) yang berputar yang memiliki probe dan shoulder yang dirancang khusus dimasukan diantara dua ujung plat atau benda kerja yang akan disambung, lalu secara teratur digerakan di sepanjang garis sambungan. Proses ini tergolong baru dan belum banyak diaplikasikan di indonesia. Karena itu, penelitian ini dilakukan untuk melihat pengaruh perubahan paramater pemesinan terhadap sifat mekanik material yang disambung dengan proses friction stir welding, dalam hal ini material AC4CH (JIS). Variasi parameter yang digunakan dalam penelitian ini adalah bentuk tool, sudut tool, dan kecepatan putar tool. Dimana hasil penelitian dan pengujian menunjuakan bahwa variasi parameter tersebut berpengaruh terhadap visual hasil pengelasan (kekasaran & flashing), kekuatan tarik material yang sudah di las, kekerasan pada setiap area pengelasan (weldzone) dan bentuk penampang potong dari pengelasan (Makrostruktur).

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Friction stir welding (FSW) was invented at The Welding Institute (TWI) of United Kingdom in 1991 as solid-state joining technique so it has advantages such as low level deformation, low fume because no burned material. It was initially applied to alumunium alloys. The basic concept of FSW is remarkably simple, a nonconsumable rotating tool with a specially designed Probe and shoulder is inserted into the abuttting edges of sheets or plates to be joined and subsequently traversed along the joint line. This process is relatively new and not yet widely applied in Indonesia.

Therefore, the study was conducted to study the change of machining parameter can affect the mechanical properties of the material to be joined by friction stir welding process, in this case AC4CH (JIS) material. Variaton of parameters used in this research is a form of a tool, tool angle, and rotation speed of tool. Where the study and test result shown that the variation of these parameters will affect the visual welding result (roughness & flashing), tensile strength of welded material, hardness at each weldzone and cross-sectional shape of the welding material (macrostructure)."