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Abstrak :
[Proses electroplating adalah proses pengendapan elektro lapisan logam pada elektroda yang bertujuan untuk membentuk permukaan logam dasar dengan sifat atau dimensi yang berbeda. Penelitian ini bertujuan untuk mengetahui pengaruh parameter waktu, suhu dan kuat arus pada pelapisan terhadap lapisan morfologi, kekuatan tarik, kekuatan tekuk dan kekerasan permukaan dengan menggunakan spesimen berupa plat baja karbon rendah berjumlah 41 buah dengan ukuran panjang 260 mm, lebar 30 mm dan tebal 2 mm sebagai logam dasarnya, sedangkan nikel dan krom sebagai pelapisnya. Variasi waktu pelapisan adalah 5 menit, 10 menit dan 15 menit., variasi suhu 50°C, 55°C dan 60°C dan variasi kuat arusnya 4 Amper, 5 Amper dan 6 Amper. Pelapisan pada plat dengan waktu 15 menit, temperatur 50°C dan kuat arus 6 Amper mempunyai nilai ketebalan yang paling tinggi yaitu 14 mikron bila dibandingkan dengan kondisi yang sama dengan waktu 5 menit yaitu 8 mikron dan untuk waktu 10 menit 9 mikron. Sedangkan untuk nilai kekuatan tariknya pada waktu 10 menit, temperatur 50°C dan kuat arus 5 Amper mempunyai nilai yang paling tinggi yaitu 376 N/mm2 bila dibandingkan dengan kondisi temperatur yang sama dengan waktu 5 menit dan 15 menit yaitu 317 N/mm2 dan 309 N/mm2. Kekuatan tekuk pada waktu 15 menit, temperatur 60°C dan kuat arus 6 Amper menunjukkan nilai yaitu 10.25 kg/mm2 sampai 10.5 kg/mm2 yang tidak mempunyai perbedaan kekuatan tekuk dibandingkan dengan bahan dasar aslinya yaitu 10.5 kg/mm2. Sedangkan pelapisan pada waktu 5 menit, temperatur 60°C dan kuat arus 6 Amper mempunyai nilai kekerasan paling tinggi yaitu 100 VHN bila dibandingkan dengan kondisi temperatur yang sama, waktu 10 menit maupun 15 menit yaitu 97 VHN dan 99 VHN. Hasil penelitian ini menyimpulkan bahwa parameter waktu, suhu dan kuat arus pada pelapisan kurang berpengaruh signifikan terhadap kekuatan tarik, kekuatan tekuk dan kekerasan.

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Electroplating is a process of electro deposition of metal layers on the electrode which aims to form a metal surface with different properties or dimensions from the metal base. The purpose of this study is to know the effects using parameters of time, temperature and current on coating toward the morphology layer, tensile strength, bending strength and hardness using a steel plate speciment with the measure of 260 mm length, 30 mm width, and 2 mm thickness which amounts to 41 pieces and metal as the base while the nickel and chrome as coatings. The variables time of coating are 5 minutes, 10 minutes, and 15 minutes, variables of temperature are 50°C, 55°C, 60°C and variables of current are 4 amperes, 5 amperes and 6 amperes. Coating a speciment at time of 15 minutes, temperature of 50 °C and current of 6 amperes has the highest thickness value which is 14 microns wide if compared to the same condition with time of 5 minutes which is 8 microns wide, and with time of 10 minutes which is 9 microns wide. While for the value of tensile strength at time of 10 minutes, temperature of 50°C and current of 5 amperes has the highest value which is 376 N/mm2 if compared to the condition with the same temperature, time of 5 minutes and 15 minutes which are 317 N/mm2 and 309 N/mm2. The bending strength at time of 15 minutes, temperature of 60°C, and current of 6 amperes showed the value is 10.25 N/mm2 until 10.5 N/mm2 that does not have bending strength differences if compared with the original base material which is 10.5 N/mm2. While coating at time of 5 minutes, temperature of 60°C and current of 6 amperes has the highest hardness value which is 100 VHN if compared to condition with the same temparature, time of 10 minutes and 15 minutes which are 97 VHN and 99 VHN. From the results of this study concluded that the parameters of time, temperature and current on coating give less significant effects toward tensile strength, bending strength and hardness.;Electroplating is a process of electro deposition of metal layers on the electrode which aims to form a metal surface with different properties or dimensions from the metal base. The purpose of this study is to know the effects using parameters of time, temperature and current on coating toward the morphology layer, tensile strength, bending strength and hardness using a steel plate speciment with the measure of 260 mm length, 30 mm width, and 2 mm thickness which amounts to 41 pieces and metal as the base while the nickel and chrome as coatings. The variables time of coating are 5 minutes, 10 minutes, and 15 minutes, variables of temperature are 50°C, 55°C, 60°C and variables of current are 4 amperes, 5 amperes and 6 amperes. Coating a speciment at time of 15 minutes, temperature of 50 °C and current of 6 amperes has the highest thickness value which is 14 microns wide if compared to the same condition with time of 5 minutes which is 8 microns wide, and with time of 10 minutes which is 9 microns wide. While for the value of tensile strength at time of 10 minutes, temperature of 50°C and current of 5 amperes has the highest value which is 376 N/mm2 if compared to the condition with the same temperature, time of 5 minutes and 15 minutes which are 317 N/mm2 and 309 N/mm2. The bending strength at time of 15 minutes, temperature of 60°C, and current of 6 amperes showed the value is 10.25 N/mm2 until 10.5 N/mm2 that does not have bending strength differences if compared with the original base material which is 10.5 N/mm2. While coating at time of 5 minutes, temperature of 60°C and current of 6 amperes has the highest hardness value which is 100 VHN if compared to condition with the same temparature, time of 10 minutes and 15 minutes which are 97 VHN and 99 VHN. From the results of this study concluded that the parameters of time, temperature and current on coating give less significant effects toward tensile strength, bending strength and hardness., Electroplating is a process of electro deposition of metal layers on the electrode which aims to form a metal surface with different properties or dimensions from the metal base. The purpose of this study is to know the effects using parameters of time, temperature and current on coating toward the morphology layer, tensile strength, bending strength and hardness using a steel plate speciment with the measure of 260 mm length, 30 mm width, and 2 mm thickness which amounts to 41 pieces and metal as the base while the nickel and chrome as coatings. The variables time of coating are 5 minutes, 10 minutes, and 15 minutes, variables of temperature are 50°C, 55°C, 60°C and variables of current are 4 amperes, 5 amperes and 6 amperes. Coating a speciment at time of 15 minutes, temperature of 50 °C and current of 6 amperes has the highest thickness value which is 14 microns wide if compared to the same condition with time of 5 minutes which is 8 microns wide, and with time of 10 minutes which is 9 microns wide. While for the value of tensile strength at time of 10 minutes, temperature of 50°C and current of 5 amperes has the highest value which is 376 N/mm2 if compared to the condition with the same temperature, time of 5 minutes and 15 minutes which are 317 N/mm2 and 309 N/mm2. The bending strength at time of 15 minutes, temperature of 60°C, and current of 6 amperes showed the value is 10.25 N/mm2 until 10.5 N/mm2 that does not have bending strength differences if compared with the original base material which is 10.5 N/mm2. While coating at time of 5 minutes, temperature of 60°C and current of 6 amperes has the highest hardness value which is 100 VHN if compared to condition with the same temparature, time of 10 minutes and 15 minutes which are 97 VHN and 99 VHN. From the results of this study concluded that the parameters of time, temperature and current on coating give less significant effects toward tensile strength, bending strength and hardness.]

Abstrak :
Komposit sandwich merupakan salah satu material yang berpotensi untuk diterapkan sebagai material penyusun rancang bangun struktur ringan. Telah dilakukan penelitian mengenai sifat mekanik pada komposit sandwich woven S-glass/epoxy dengan inti Polyvinyl chloride foam. Komposit sandwich, yang terdiri dari dua jenis yaitu 00/900/PVC/00/900 dan 00/900/PVC/-450/450, dibuat dengan menggunakan metode hand lay-up, diikuti dengan metode vacuum bagging. Pengukuran massa jenis, pengujian mekanik berupa uji tekuk tiga titik dan uji tekan untuk mengetahui sifat mekanik komposit sandwich ini, serta pengamatan kerusakan menggunakan Scanning Electron Microscope dilakukan. Didapatkan massa jenis yang relatif kecil untuk kedua komposit sandwich, yaitu (0.20 ± 0.01) gr/cm3 dan (0.21 ± 0.01) gr/cm3. Sifat mekanik terbaik didapatkan pada komposit sandwich 00/900/PVC/00/900 dengan kekuatan tekuk, kekuatan geser, dan kekuatan tekan sebesar (51.04 ± 2.49) MPa, (0,39 ± 0.02) MPa dan (4.79 ± 0.12) MPa. Moda kegagalan yang terjadi adalah indentation dan buckling dengan kerusakan pada kulit dan inti.

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Sandwich composites are materials that have potential to be used in lightweight structure design. A research on the mechanical properties of a woven S-glass/epoxy sandwich with polyvinyl chloride foam core has been done. The sandwich composites were classified into two types, 00/900/PVC/00/900 and 00/900/PVC/-450/450 and were manufactured with hand lay-up method, followed by vacuum bagging method. Density measurement, three-point bending test, edgewise compression test, and failure observation with Scanning Electron Microscope (SEM) were conducted. Relatively small densities were achieved for these two sandwich composites, (0.20 ± 0.01) gr/cm3 and (0.21 ± 0.01) gr/cm3. The best mechanical properties were obtained in sandwich composite 00/900/PVC/00/900 , with flexural strength, core shear strength, and compression failure stress of (51.04 ± 2.49) MPa, (0,39 ± 0.02) MPa, and (4.79 ± 0.12) MPa. Mode of failure that occured is indentation and buckling with damage to the skin and core.