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Jurnal Teknik Industri Terintegrasi (JUTIN)
Published by Universitas Pahlawan Tuanku Tambusai
ISSN : 26208962     EISSN : 26208962     DOI : 10.31004jutin
Core Subject : Science, Engineering,
Decision Sciences, Operations Research & Management Energy Engineering Industrial & Manufacturing Engineering Mechanical Engineering
Jurnal Teknik Industri Terintegrasi merupakan jurnal yang dikelola oleh Program Studi Teknik Industri Fakultas Sains dan Teknologi Universitas Pahlawan Tuanku Tambusai yang menjebatani para peneliti untuk mempublikasikan hasil penelitian di bidang ilmu teknik dan teknik industri mencakup proses manufaktur, kegagalan dan rekayasa material, perawatan berbasis keandalan, keselamatan kerja, perancangan sistem kerja dan ergonomi, pengendalian dan penjaminan mutu, tata letak fasilitas, penelitian operasional, kewirausahaan dan pengembangan bisnis
Arjuna Subject : -
Articles 268 Documents
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PENGUKURAN WAKTU KERJA DENGAN METODE STOP WATCH TIME STUDY Syafril Syafar; Rahmat Hidayat; Dewi Apriyanti
Jurnal Teknik Industri Terintegrasi Vol. 2 No. 1 (2019): Mei
Publisher : Research Center University of Pahlawan Tuanku Tambusai

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31004/jutin.v2i1.824

Abstract

Measurement of work time with the stopwatch time study method is a measurement to observe the activities carried out repeatedly. The work measurement results can be used to obtain standard time and standard output which can later be used to carry out production planning. The purpose of this study was to determine the operating time of each unit of product worked at Pondok Neubel and to determine the standard working time of production processes at Pondok Neubel. Results of the study The total cycle time value of all activities in the neubel cottage was 2400 seconds and the normal time for each activity with a performance rating of 10 was 24000 seconds. The conclusion of this study, factors that influence the performance of workers in neubel huts are fatigue factors.
PENENTUAN PRIORITAS PERBAIKAN PELAYANAN MENGGUNAKAN METODE KANO DAN QFD (Studi Kasus PT. Perawang Kencana Motor) Dedi Dermawan; Denur Jumali
Jurnal Teknik Industri Terintegrasi Vol. 2 No. 1 (2019): Mei
Publisher : Research Center University of Pahlawan Tuanku Tambusai

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31004/jutin.v2i1.260

Abstract

This research was conducted at the PT. Perawang Kencana Motor. The problems faced today are consumers who are still not satisfied with the services provided by PT. Perawang Kencana Motor, caused by complaints from consumers. The method used in this study is the Kano Method with Quality Function Deployment (QFD). The tools used are House Of Quality (HOQ). This study aims to determine customer expectations, determine the categories of customer needs that are mapped into the Kano method, and determine improvement proposals based on existing technical responses to services provided by PT. Perawang Kencana Motor, so that service users of PT. Perawang Kencana Motor can feel a better level of service satisfaction. From the results of data processing obtained 15 variable consumer expectations that become priority improvements to achieve customer satisfaction PT. Perawang Kencana Motor. Furthermore, from the results of processing the canoe model, Atrractive categories were obtained as many as 5 attributes, namely the suitability of prices with the results received, mechanics must be adept at handling motor damage, employee skills in explaining the products to be sold, the availability of complete spare parts, and the existence of wifi facilities, the One Dimentional category 3 attributes, namely the comfort of the waiting room in the workshop area, uniform clothing, and mechanical responses motorcycle maintenance consultancy,indifferet category 2 attributes, namely ease of payment and cleanliness of the showroom area. Therefore, the authors provide a proposal that was developed from the results of the analysis of technical responses.
ANALISA KEGAGALAN SHAFT RODA GIGI GEARBOX TYPE RFM 3090 LA 35,5/1 Sunaryo Sunaryo; Japri Lukman; Denur Jumali
Jurnal Teknik Industri Terintegrasi Vol. 2 No. 2 (2019): Nov
Publisher : Research Center University of Pahlawan Tuanku Tambusai

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31004/jutin.v2i2.449

Abstract

Shaft gear is one part of the machine components that experience dynamic load will occur voltage fluctuations. When the fluctuations occur repeatedly as often as possible, there will be failure, even though the maximum voltage that occurs is still smaller than the static strength of the wheel axle material. Failure of a shaft material is inseparable from the characteristics of its structure. Failure of the shaft occurs at points where there is a voltage concentration, where the source of the stress concentration on the machine element, can be pull, groove, hole, thread, pegs and others. The weakness or failure of a SS 304 carbon steel material used as a shaft is influenced by many factors. It should be noted that the breakage of a material always begins at places where stress concentration occurs with its loading pattern. In response to the above problems, a failure analysis of the gear shaft of Stainless Steel AISI 304 is required. By testing the metal mechanical properties by tensile testing, hardness testing, obtained from fatigue test with tensile strength of 812 , 97 MPa in diameter 13 shaft of gear and 825,37 MPa for diameter 16 and yield strength of SS 304 for diameter 13 is 806,03 N / mm2 while diameter 16 equal to 821,20 N / mm2. The result of fatty test shows the three stresses given at diameter 12 (mm) of 61.2 Mpa then the resulting cycle amounted to 87476 for 145 Minutes at 2800 speed, in contrast to the fatigue test results for a given voltage of 76.5 Mpa, resulting in 87354 for 120 minutes, resulting in the greater the applied stress the cycle and time will be faster the occurrence of fatality in the material Stainless Steel AISI 304.Hardness value (Hardening) on shaft gears with Stainless Steel AISI 304 material no difference between shaft diameter 13 of HB: 133 and diameter 16 of HB: 133. The difference in diameter on the shaft does not affect the hardness value in the shaft material of the gear. Factors that affect or tend to alter the condition of fatigue or fatigue strength are the types of loading, rotation, environmental humidity (corrosion), stress concentration, temperature, material fatigue, chemical composition of materials, residual stresses.
ANALISA METALURGI KASUS KEGAGALAN PELAT LOGAM IMPLAN UNTUK FIKASI PATAH TULANG DAN PERBANDINGANNYA DENGAN LOGAM IMPLAN BARU Rusrial Rusrial; Gunawarman Gunawarman
Jurnal Teknik Industri Terintegrasi Vol. 1 No. 1 (2018)
Publisher : Research Center University of Pahlawan Tuanku Tambusai

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31004/jutin.v1i1.74

Abstract

Fractures are the result of pressure that exceeds the ability of bone to withstand the pressure. Principles of fracture treatment include reduction, immobilization, and restore normal function and strength with rehabilitation. Biomaterials is a material that is paired implants in the human body to sustain a broken bone repositioning. Current position to restore the bone to its original state is usually used as a metal plate fixation especially in the internal fixation. Stainless steel is one material that often is used as temporary fixation material and then released after bone connected. In this study, the test specimen is a commercial implant material that is widely used today, such as stainless steel 316L implant which is a material that has the properties of good corrosion resistance that can be accepted by the human body tissues. Stages of the manufacturing process of the specimen consists of the cutting process, the formation and establishment of gauge lenght. The results showed that the tensile strength of the material after the power failure as bone fixation is not much different with the new implant is a metal ± ± 165.8 MPa and 109.42 MPa. From this study, a material which has failed to have a higher tensile strength values ± 56.38 MPa of new metal implants. By looking at the results of microstructure observation can provide information about fault models, the size and number of the different structures. This commercial implant material or greater reduction in cross-sectional area along the cracks and going tug indicate resilient material used. Failures that occur due to the low tensile strength of the metal implants are used as fixation strength compared to standard steel material. low tensile strength is caused by the corrosion of the metal.
ANALISIS JENIS KERUSAKAN PADA BANGUNAN PERUMAHAN Hanantatur Adeswastoto; Muhammad Islah
Jurnal Teknik Industri Terintegrasi Vol. 1 No. 2 (2018)
Publisher : Research Center University of Pahlawan Tuanku Tambusai

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31004/jutin.v1i2.319

Abstract

Terjadinya kerusakan pada bangunan gedung/rumah tinggal membuat bangunan tersebut menjadi kurang nyaman untuk ditempati bahkan mungkin dapat runtuh sehingga menimbulkan korban jiwa, sehingga diperlukan identifikasi kerusakan yang terjadi dan bagaimana upaya untuk menanganinya dengan memperhatikan kaidah-kaidah dalam membangun bangunan tersebut. Penelitian ini dilakukan dengan mengambil obyek pada bangunan Perumahan Athaya I dengan mengadakan survai secara langsung (visual inspection). Data yang diperoleh kemudian dianalisis untuk diketahui jenis kerusakan bangunan bangunan gedung sederhana yang terjadi dan upaya penanggulangan dan perbaikannya. Dari hasil penelitian ini diketahui bahwa pada bangunan Perumahan Athaya I teridentifikasi ada 9 (sembilan) macam kerusakan yang terjadi, yaitu: Kebocoran pada penutup atap dan karat, pelapukan listplank, cacat kayu (mata kayu) pada kuda-kuda dan gording, pelapukan langit-langit, retak vertikal join kolom dan tembok, retak pada frame jendela dan pintu,retak random pada dinding, kerusakan setempat pada dinding, lantai retak/pecah, dengan penyebab kerusakan yang dominan yaitu oleh faktor alam, faktor pelaksanaan, dan faktor mekanis.
PERENCANAAN WAKTU DALAM PELAKSANAAN KONSTRUKSI DAPAT MENGURANGI TINGKAT KERUGIAN, KESALAHAN DI DALAM PENGERJAAN SUATU PROYEK Agus Alisa Putra; Muhammad Islah
Jurnal Teknik Industri Terintegrasi Vol. 1 No. 1 (2018)
Publisher : Research Center University of Pahlawan Tuanku Tambusai

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31004/jutin.v1i1.309

Abstract

Manajemen dapat diartikan sebagai metode pengaturan sumber daya yang ada secara efektif dan efisien untuk mencapai tujuan tertentu. Proyek dapat diartikan sesuatu kegiatan yang berlangsung dalam jangka waktu tertentu, dengan alokasi sumber dana tertentu. Suatu proyek banuak melibatkan berbagai pihak, baik secara langsung maupun tidak langsung, untuk itu diperlukan manajemen yang baik terutama perencanaan waktu. Ada lima tolak ukur keberhasialn proyek: 1) tepat waktu, 2) sesuai anggaran, 3) cakupan proyek, 4) mutu dan kualitas, 5) sumber daya yang tersedia. Melihat dari tolak ukur keberhasilan suatu proyek, maka diperlukan ada penjadwalan serta perencanaan waktu pelaksana konstruksi yang baik. Adapun bentuk bentuk dari time schedule yang umum digunakan adalah diagram batang (bar char), diagram jaringan (nerwork palnning), kurva S. Manfaat dari pembuatan time schedule adalah 1) acuan dalam pengadaan tenaga kerja yang dibolehkan, 2) acuan dalam pengadaan material bangunan, 3) acuan dalam pengadaan peralatan kerja, 4) acuan dalam proses pengawasan pelaksanaan konstruksi, 5) acuan untuk menentukan jangka waktu pelaksanaan kontrak kerja konstruksi.
PENERAPAN RCM PADA KOMPRESOR DALAM SISTEM KRIOGENIK Afdal Afdal; Sunaryo Sunaryo; Japri Japri; Legisnal Hakim
Jurnal Teknik Industri Terintegrasi Vol. 3 No. 1 (2020): April
Publisher : Research Center University of Pahlawan Tuanku Tambusai

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31004/jutin.v3i1.807

Abstract

In applying maintenance management to the cryogenic system for the production of Oxygen and Nitrogen, you must first know the equipment in the cryogenic system, know the level of damage to the equipment, know how to perform maintenance, know how to prevent and know how to repair. The research objectives to be achieved are: Knowing critical equipment in the cryogenic system in the process of producing Oxygen (O2) and Nitrogen (N2), Determine policy, maintenance maintenance activities based on the distribution of damage, namely the weibull distribution using the Reliabilty Centered maintenance method. on the compressor equipment in the cryogenic system so that no failure occurs, Determine the inspection time interval on the compressor in the Oxygen Plant PT. Indah Kiat Pulp & Perawang Paper. At this stage every failure mode is known. Task selection is carried out to determine the type of maintenance policy that is the most effective for each failure mode. As well as determining the relationship of existing task failures, whether the failure is directly related to Time Directed (TD), Condition Directed (CD), Failure Finding (FF) and grouping of failure modes in the Hidden Failure (D) category. So in the end we get an effective type of treatment. The results of the selection of appropriate treatment measures for the company is with TD (Time Directed) treatment. In calculations using the distribution of damage (Weibull) and identify the value betha (β) has a decreased damage rate β> 1, amounting to 1.531880662, from the value it is known that the recommended maintenance is Preventive Maintenance and Time Based Maintenance
ANALISIS DISTRIBUSI OBAT DENGAN PENDEKATAN TRAVELLING SALESMAN PROBLEMS (TSP) DI PT. PHAROS CABANG PEKANBARU Dedi Dermawan; Vedri Ramadiansyah
Jurnal Teknik Industri Terintegrasi Vol. 1 No. 2 (2018)
Publisher : Research Center University of Pahlawan Tuanku Tambusai

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31004/jutin.v1i2.76

Abstract

PT. Pharos Indonesia is engaged in pharmaceuticals which at once distributes these medicines to certain retailers to be accessible to any community. One branch of PT. Pharos Indonesia, which is located the way of Harapan Raya, Pekanbaru, Riau. This company has distributed to various retailers in the Pekanbaru area. From the results of interviews that have been conducted on several employees, it can be concluded that the company has a problem that is about the distribution of goods that have been circulated to several retailers who have had a long time, so that the salesman feels the effects of fatigue caused by long distances and routes that are not arranged with well.                     Based on the results of data processing with the Traveling Salesman Problem (TSP) method, the proposed routes for distributing drugs to retailers as initial consumers of PT. Pharos Indonesia starts with distributing medicine  to Alzi Pharmacy - Supermarket AA - Supermarket 462 - Kimia Farma – Medicine Store Adinda - Klinik Aisyiyiah - RSIA Zainab - Drug Store Abel - Tiga Putri Pharmacy - Return to the office.
ANALISIS PENGGUNAAN APLIKASI FUZZY ANALYTICAL HIERARCHY PROCESS DALAM SELEKSI KARYAWAN Yesi Yusmita; Aris Fiatno
Jurnal Teknik Industri Terintegrasi Vol. 1 No. 2 (2018)
Publisher : Research Center University of Pahlawan Tuanku Tambusai

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31004/jutin.v1i2.324

Abstract

This study discusses the problem of decision making to choose the best employee alternatives. To solve this problem Fuzzy Analytical Hierarchy Process is used, the development of conventional Analytical Hierarchy Process which is designed to deal with problems with more subjective criteria. The choice of the best employees with the Fuzzy Analytical Hierarchy Process shows that the subjectivity of the criteria is of greater concern compared to using the conventional Analytical Hierarchy Process.
IMPLEMENTING DMG MODEL TO IMPROVE RELIABILITY OF PERSONAL COMPUTER AT COMPUTER LABORATORY FACILITY Emon Azriadi; Aris Fiatno
Jurnal Teknik Industri Terintegrasi Vol. 1 No. 1 (2018)
Publisher : Research Center University of Pahlawan Tuanku Tambusai

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31004/jutin.v1i1.315

Abstract

A typical maintenance organisation has responsibility in keeping the production facility running at the desired level performance. In order to ensure that condition, necessary decisions should be made. The Decision Making Grid (DMG) model is one of analysis technique that provides maintenance organisation in strategic and tactical level management to determine the appropriate maintenance policy for all individual machinery and equipment within the facility. In this project, the analysis identified the performance of the personel computer at laboratory facility by conducting availability measurement. The hardware, peripheral, and softwarewhich have breakdown records were analysed then by the DMG model to propose the appropriate maintenance policy for all individual personel computer within the computer laboratory facility. Implementing the DMG recommendations were proposed to follow the suggested priority order.

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