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"This book is aimed primarily at researchers in real-time embedded systems, particularly those who wish to understand the current state of the art in using Java in this domain. Much of the work in real-time distributed, embedded and real-time Java has focused on the Real-time Specification for Java (RTSJ) as the underlying base technology, and consequently many of the Chapters in this book address issues with, or solve problems using, this framework. Describes innovative techniques in, scheduling, memory management, quality of service and communication systems supporting real-time Java applications, includes coverage of multiprocessor embedded systems and parallel programming, discusses state-of-the-art resource management for embedded systems, including Java’s real-time garbage collection and parallel collectors, considers hardware support for the execution of Java programs including how programs can interact with functional accelerators, and includes coverage of Safety Critical Java for development of safety critical embedded systems."

"Logam ringan aluminium (Al) dan paduannya memiliki sifat mekanik yang cocok digunakan dalam industri penerbangan, perkapalan, dan otomotif. Proteksi terhadap permukaan logam Al diperlukan untuk meningkatkan ketahanan korosi dan aus. Plasma Electrolytic Oxidation (PEO) menghasilkanlapisan oksida tebal dan kristalin sehingga dapat meningkatkan ketahanan korosi dan ketahanan aus. Karakteristik mekanik dan korosi lapisan oksida hasil PEO sangat bergantung pada ketebalan dan morfologi lapisan yang ditentukan oleh waktu dan karakteristik plasma. Dalam penelitian ini, PEO dilakukan pada paduan Al seri 7075-T651 dengan menggunakan elektrolit campuran 30 g/lNa2SiO3, 30 g/l KOH, 30 g/l Na3PO4, dan 20 g/l TEA pada rapat arus konstan 200 A/m2dengan variasi waktu 10, 15, dan 20 menit. Lapisan PEO dikarakterisasi dengan menggunakan X-Ray Diffractometer (XRD) untuk menganalisis komposisi fasa kristal, Scanning Electron Microscopy-Energy Dispersive x-ray Spectroscopy (SEM-EDS) untuk menganalisis morfologi permukaan dan komposisi unsur. Perilaku korosi pada sampel dievaluasi melalui uji elektrokimia, yaitu Open Circuit Potential (OCP), Electrochemical Impedence Spectroscopy (EIS), dan juga Potentiodynamic Polarization (PDP). Sifat mekanik lapisan PEO diuji dengan metode Vickers microhardness, dan ketahanan aus diuji menggunakan metode Ogoshi. Unsur P, Si, O merupakan lapisan perlindungan terhadap korosi semakin meningkat seiring berjalannya waktu. Hasil XRD menunjukkan adanya lapisan Al2O3, SiO2, dan AlPO4. Hasil uji elektrokimia PDP dan EIS menunjukkan bahwa PEO 15 menit menunjukkan kinerja korosi yang paling baik, memiliki rapat arus korosi terendah sebesar 1,20 × 10-7 A.cm−2 dan hambatan tertinggi sebesar 706,8 Ω.cm2 dan 1,65 × 104 Ω.cm2. Tetapi, uji mekanik menunjukkan bahwa PEO 15 menitmemiliki tingkat keausan yang tinggi sebesar 20,8 mm3/mm dan kekerasan sebesar 143 HV. Sedangkan PEO 20 menit nilai keausan lebih rendah sekitar 8 mm3/mm dan kekerasan sebesar 159,4 HV serta sudut kontak sebesar 78˚.

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The lightweight metal aluminum (Al) and its alloys exhibit mechanical properties suitable for use in the aerospace, shipping, and automotive sectors. Surface protection of Al metal is necessary to enhance corrosion and wear resistance. Plasma Electrolysis Oxidation (PEO) produces thick and crystalline oxide layers, thus improving high corrosion resistance and high wear resistance. The mechanical and corrosion characteristics of PEO oxide layers greatly depend on the thickness and morphology of the layers determined by time and plasma characteristics. In this study, PEO was performed on 7075-T651 series Al alloy using a mixed electrolyte of 30 g/l Na2SiO3, 30 g/l KOH, 30 g/l Na3PO4, and 20 g/l TEA at a constant current density of 200 A/m2 with time variations of 10, 15, and 20 minutes. The PEO layers were characterized using X-Ray Diffractometer (XRD) to analyze the crystal phase composition, Scanning Electron Microscopy-Energy Dispersive x-ray Spectroscopy (SEM-EDS) to analyze surface morphology and elemental composition. Corrosion behavior on the samples was evaluated through electrochemical tests, namely Open Circuit Potential (OCP), Electrochemical Impedance Spectroscopy (EIS), and Potentiodynamic Polarization (PDP). The mechanical properties of PEO layers were tested using the Vickers microhardness method, and wear resistance was tested using the Ogoshi method. The protective layer against corrosion increases over time with elements P, Si, O. XRD results show the presence of Al2O3, SiO2, and AlPO4 layers. PDP and EIS electrochemical test results indicate that PEO for 15 minutes shows the best corrosion performance, with the lowest corrosion current density of 1.20 × 10-7 A.cm−2 and the highest impedance of 706.8 Ω.cm2 and 1,65 × 104 Ω.cm2. However, mechanical tests show that the 15-minute PEO has a high wear rate of 20.8 mm3/mm and a hardness of 143 HV. Meanwhile, the 20-minute PEO has a lower wear rate of about 8 mm3/mm and a hardness of 159.4 HV, as well as a contact angle of 78˚."

"Micro Resistance Spot Welding (MRSW) merupakan metode pengelasan yang banyak digunakan di industri manufaktur dikarenakan prosesnya yang cepat, efisien secara ekonomi, dapat diotomatisasi, dan dapat digunakan untuk pelat dengan ketebalan rendah. Pelat paduan aluminium dan brass, yaitu AA 1100 dan CuZn30 dengan ketebalan rendah merupakan bahan yang dewasa ini banyak digunakan dalam industri manufaktur dikarenakan sifatnya yang ringan dengan kekuatan mekanis yang baik. Belum terdapat penelitian yang membahas mengenai parameter optimum dari mRSW untuk pengelasan AA 1100 dan CuZn30. Dalam penelitian ini, dilakukan pengelasan terhadap pelat AA 1100 dan CuZn30 dengan dimensi 19 mm x 76 mm x 0,4 mm menggunakan instrumen pengelasan micro resistance spot welding (MRSW) otomatis dengan variabel cycle time pengelasan secara berturut-turut sebesar 3, 4, 5, 6, 7, 8, 9, 10 siklus. Karakterisasi hasil las dilakukan lewat analisis pengujian tarik. Pengujian tarik menunjukkan bahwa terjadi peningkatan nilai shear stress pada siklus/cycle time yang lebih besar.

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Micro Resistance Spot Welding (MRSW) is a welding method that is widely used in the manufacturing industry due to its fast, economically efficient, automable process and can be used for low thickness plates. Aluminum and brass alloy plates, namely AA 1100 and CuZn30 with low thickness are materials that are currently widely used in the manufacturing industry due to their lightweight nature with good mechanical strength. There are no studies that discuss the optimum parameters of micro resistance spot welding (MRSW) for welding AA 1100 and CuZn30. In this study, welding was carried out on the AA 1100 and CuZn30 plates with dimensions of 19 mm x 76 mm x 0.4 mm using an automatic mRSW welding instrument with a variable welding cycle time respectively 3, 4, 5, 6, 7, 8, , 9, 10 cycles. The characterization of welds was carried out through tensile testing. The tensile test shows that there is an increase in the value of shear stress at a greater cycle / cycle time."