scholarly journals Pengurangan Pemborosan Waktu Produksi Pada Proses Pembuatan Rumah Boneka Menggunakan Pendekatan Lean

Faktor Exacta ◽  
2018 ◽  
Vol 11 (3) ◽  
Author(s):  
Tiara Tiara
Keyword(s):  
Production Process ◽  
Cycle Time ◽  
Lead Time ◽  
Base Material ◽  
Line Balancing ◽  
Value Stream Mapping ◽  
Physical Factors ◽  
Production Time ◽  
Value Stream ◽  
Current State

CV. Puppet house is a small and medium-sized industrial enterprise and manufactures in producing doll house with wood base material. The purpose of this study is to know the kind of wasted production time on each production process at CV. Puppet house and give repair suggestions so as to increase the productivity of puppet house production time. This study uses a quantitative approach with the processing time of each workstation. This study uses a lean approach with tools value stream mapping (VSM), at the beginning of the study, drawing a current state mapping obtained from observations on puppets CV, then from the image was identified problem of each production process. Then analyze the problem using line balancing to level the cycle time, fishbone diagram to find out the factors causing the problem of the production of puppets and the introduction of waste on each production process. In the current state mapping the spend time of 1418.76 with 10 day lead time. After calculating and equating cycle time by using line balancing. Based on the analysis, there are several causes that can cause waste among others: delay of raw material arrival, physical factors of workers, workers who do not follow the work standards determined by the puppets and movements that are not required but performed by the workers. The proposed repair can be given to the CV of these puppets is to communicate well with the supplier, to conduct training once every 3 months to the employees, providing a special place for storage of raw materials and semi-finished materials and do not turn on television while working.<br />Keywords: Lean Manufacturing, Waste, Value Stream Mapping, Lead Time, Fshbone Diagram, CV. Rumah boneka.

scholarly journals REKAYASA PERBAIKAN PROSES PRODUKSI BONEKA DENGAN INTEGRASI METODE LINE BALANCING DAN VALUE STREAM MAPPING

2018 ◽  
Vol 10 (3) ◽  
pp. 294
Author(s):  
Fut Tri Budi Ayu
Keyword(s):  
Production Process ◽  
Cycle Time ◽  
Lead Time ◽  
Base Material ◽  
Process Efficiency ◽  
Line Balancing ◽  
Value Stream Mapping ◽  
Process Time ◽  
Value Stream ◽  
Current State

Pradamas Toys is a small and medium industrial company in producing dolls with yelvo fabric base material. The purpose of this study is to know the waste in the puppet production process at Pradamas Toys and to propose improvement of production process to minimize waste and improve production process efficiency in Pradamas Toys. This research uses lean approach with value stream mapping (VSM) tools, at the beginning of the research done depiction of current state mapping on Pradamas Toys, after that do problem analysis using line balancing to leveling cycle time, fishbone diagram used to know factors causing production problem puppets and waste identification in each production process, then analyzed 5 Why and 5W1H to give suggestions for improvement of production process at Pradamar Toys. At current state mapping the production process time is 18.6032 minutes with a lead time of 9 days. After doing the calculation and equalization cycle time by using line balancing, then got the proposed future state mapping for doll production with process time of 14,7300 minutes and lead time of 5 days.

scholarly journals MEMINIMASI PEMBOROSAN DENGAN LEAN MANUFACTURING PADA PROSES PRODUKSI DI PT. IE

2021 ◽  
pp. 1451
Author(s):  
Ahmad Ahmad ◽  
Helena JK ◽  
Andrean Yonathan
Keyword(s):  
Waiting Time ◽  
Cycle Time ◽  
Lean Manufacturing ◽  
Lead Time ◽  
Fault Tree Analysis ◽  
Value Stream Mapping ◽  
Tree Analysis ◽  
Value Stream ◽  
Current State ◽  
Future State

PT. IE is engaged in the business of making Lighting and Lampposts. Based on observations and interviews, there are still some wastes that arise in the flow of the production process, among which there are still many wastes of waiting time, transportation, movement and inventory. These wastes cause the product completion time to be longer and the resulting quality decreases. To eliminate or reduce waste, it is necessary to apply Lean Manufacturing. Lean Manufacturing is a systematic approach to eliminating waste and changing processes by identifying and reducing waste with continuous improvement and striving to create a production flow along the value stream by eliminating all forms of waste and increasing the added value of products to customers. From the Pareto diagram, it is found that transportation waste has the highest percentage of 26.21%, waiting time is 21.38%, motion waste is 19.31% and waste inventories are 15.17%. while the results of the Value Stream Mapping Current State Map mapping obtained a production lead time of 7,680 seconds and a total cycle time of 6,660 seconds and a PCE Current State Map value of 53.09%. Identify the root causes of waste using Fishbone diagrams, 5 Why Analysis, 5W+1H, Fault Tree Analysis and FMEA. After corrective actions have been taken, based on the Value Stream Mapping Future mapping there is a decrease in production lead time to 5,220 seconds and a decrease in total cycle time to 4,860 seconds and an increase in PCE Future State Map to 68.10% so that there is an increase of 15.01% which shows The company's production process has become more Lean.PT. IE bergerak dalam bisnis pembuatan Lighting dan Tiang Lampu. Berdasarkan observasi dan wawancara, masih terdapat beberapa pemborosan (waste) yang timbul di aliran proses produksi di antaranya masih banyak terjadi pemborosan-pemborosan waktu tunggu, transportasi, gerakan dan inventori. Pemborosan-pemborosan tersebut menyebabkan waktu penyelesaian produk menjadi lebih lama dan kualitas yang dihasilkan menurun. Untuk menghilangkan atau mengurangi pemborosan diperlukan adanya penerapan Lean Manufacturing.Lean Manufacturing merupakan pendekatan sistematik untuk mengeliminasi pemborosan dan mengubah proses dengan cara mengidentifikasi dan mengurangi pemborosan dengan perbaikan kontinu dan berupaya untuk menciptakan aliran produksi sepanjang value stream dengan menghilangkan segala bentuk pemborosan serta meningkatkan nilai tambah produk kepada pelanggan. Dari diagram Pareto ditemukan waste transportasi memiliki persentase paling tinggi sebesar 26,21%, waktu tunggu  21,38%, waste motion 19,31% dan waste inventories 15,17%. sedangkan hasil pemetaan Value Stream Mapping Current State Map diperoleh production lead time selama 7.680 detik dan total cycle time selama 6.660 detik serta nilai PCE Current State Map sebesar 53,09%. Identifikasi akar permasalahan pemborosan menggunakan diagram Fishbone, 5 Why Analysis, 5W+1H, Fault Tree Analysis dan FMEA. Setelah dilakukan tindakan–tindakan perbaikan, berdasarkan pemetaan Value Stream Mapping Future ada penurunan production lead time menjadi 5.220 detik dan penurunan total cycle time menjadi 4.860 detik serta ada peningkatan PCE Future State Map menjadi 68,10% sehingga ada peningkatan 15,01% yang menunjukan proses produksi perusahaan telah menjadi lebih Lean.

scholarly journals Improving Quality Control Process Through Value Stream Mapping

2018 ◽  
Vol 7 (2.29) ◽  
pp. 219
Author(s):  
Zulfa Fitri Ikatrinasari ◽  
Dan Kosasih
Keyword(s):  
Quality Control ◽  
Lead Time ◽  
Value Added ◽  
Maximum Efficiency ◽  
Value Stream Mapping ◽  
Process Time ◽  
Value Stream ◽  
Current State ◽  
Future State ◽  
Quality Control Process

PT. AEMI is one of the growing electronic component manufacturing company. By this time, Kaizen project has been run and managed to become a culture in PT AEMI. However, the project has not integrated, comprehensive and not yet has a long-term goals. Implementation of value stream mapping (VSM) in PT AEMI is expected to make Kaizen projects more focused and to produce increasing of the maximum efficiency. In addition, VSM Kaizen is believed to make the those programs more integrated, effective and comprehensive. This study aims to: (1) create a current state mapping in the Department of Quality Control PT. AEMI, (2) identify wastes in the Department of Quality Control PT.AEMI, (3) create a future state mapping at the Department of Quality Control PT. AEMI, (4) make a plan of improvement and analyzing the application. Stages of the study were as follows: (1) identification of work processes, (2) collect and analysis of work process time, (3) analysis of the current state mapping, (4) calculate of lead time and process time, (5) analysis of value added and non value-added activities, (6) analysis of wastes, (7) make a plan of future state mapping, (8) improvement design (improvement planning), (9) implementation of improvement, (10) analysis of the implementation of improvements. The results of this study are: 1) current state mapping at QC Department shows that the total lead time of 848 minutes where there is non-value added activity of 778 minutes. 2) identify waste on the handling process where the product movement from assembly to QC for 2 minutes, movement transactions from assembly to QC for 479 minutes and the waiting time at  inspection area for 727 minutes. 3) future state mapping at QC Department shows that the total lead time of 516.5 minutes where there is non-value added activity of 446.5 minutes. 4) the improvement to do is to change the lay out where final inspection is moved from QC to manufacturing so as to result in reduce of non-value added activity by 46%. 

scholarly journals ANALISIS PEMBOROSAN PRODUKSI PADA ALIRAN PRODUK JALA IKAN KKP MENGGUNAKAN PRINSIP LEAN MANUFACTURING DENGAN METODE VALUE STREAM MAPPING (VSM) DI PT. INDONEPTUNE NET MANUFACTURING

2019 ◽  
Vol 7 (2) ◽  
pp. 79-89
Author(s):  
Henny Henny ◽  
Muhammad Kahfi Hadi Syuhada
Keyword(s):  
Cycle Time ◽  
Delay Time ◽  
Lean Manufacturing ◽  
Value Stream Mapping ◽  
Time Level ◽  
Value Stream ◽  
Current State

  Penelitian ini ditujukan untuk menganalisis pemborosan produksi produk Jala Ikan KKP menggunakan lean manufacturing di PT. Indoneptune Net Manufacturing dengan memetakan aliran produksi dan menganalisisnya menggunakan value stream mapping (VSM). Analisis terhadap pemborosan dengan metode VSM dilakukan karena VSM dapat memetakan aliran informasi dan material dari awal sampai akhir dari value stream pembuatan suatu produk. Sehingga dapat dilihat proses mana saja yang merupakan pemborosan. Adapun VSM yang dibuat adalah current-state VSM karena dapat merepresentasikan kondisi saat ini dari aliran produksi yang ada. Hasil yang didapatkan setelah dibuat current-state VSM adalah aliran produksi produk jala Ikan KKP melewati proses spinning, ring roupe, netting dan finishing yang memiliki sub-sub proses yang berbeda. Dari setiap sub-proses tersebut dipetakan nama proses, jumlah waktu cycle time dan changeover time, level inventory, waktu kerja tersedia dan jumlah operator. Penganalisisan pemborosan dilakukan pada setiap sub-proses untuk dapat mengetahui nilai tambah proses tersebut terhadap produk utama yang sedang dikerjakan pada setiap tahapan proses yang berlangsung. Kesimpulan yang didapat yaitu pemborosan yang terjadi di departemen spinning salah satunya adalah delay time karena persiapan sebelum proses peleburan, waktu tunggu karena persiapan proses twist di departemen ring roupe, transportasi berlebih sebelum proses tatekan dan pengerjaan ulang di hoshu 2 di departemen finishing.

scholarly journals Increasing Productivity by Reducing Manufacturing Lead Time through Value Stream Mapping

2012 ◽  
pp. 225-229
Author(s):  
Renu Yadav ◽  
Ashish Shastri ◽  
Mithlesh Rathore
Keyword(s):  
Lead Time ◽  
Value Added ◽  
Value Stream Mapping ◽  
Mapping Technique ◽  
Inventory Level ◽  
Lead Times ◽  
Business World ◽  
Value Stream ◽  
Current State ◽  
Future State

To survive in today’s competitive business world, companies require small lead times, low costs and high customer service levels. As such, companies pay more effort to reduce their manufacturing lead times. Value stream mapping (VSM) technique has been used on a broad scale in big companies such as Toyota and Boeing. This paper considers the implementation of value stream mapping technique in manufacturing helical springs by railway spring manufacturing company. It focuses on product family, current state map improvements and the future state map. The aim is to identify waste in the form of non value added activities & processes and then removing them to improve the performance of the company. Current state map is prepared to describe the existing position and various problem areas.. Future state map is prepared to show the proposed improvement action plans. The achievements of value stream implementation are reduction in lead time, cycle time and inventory level. It was found that even a small company can make significant improvements by adopting VSM technology. It was concluded that if we adopt the VSM technique the company could reduce the manufacturing lead time from 36.86 days to 34.06 days.

scholarly journals Penerapan Lean Manufacturing untuk Mengurangi Waste pada Produksi Absorbent

2018 ◽  
Vol 4 (1) ◽  
pp. 23 ◽  
Author(s):  
Agung Ravizar ◽  
Rosihin Rosihin
Keyword(s):  
Production Process ◽  
Lean Manufacturing ◽  
Quantitative Data ◽  
Lead Time ◽  
Historical Data ◽  
Mapping Method ◽  
Production Costs ◽  
Value Stream Mapping ◽  
Value Stream ◽  
Process Speed

This study aims to reduce the waste that occurs on each workstation and has an impact on increasing productivity and reducing production costs caused by waste that occurs during production. The data used for this study is quantitative data obtained by direct observation to the relevant departments regarding the problem of identifying waste that occurs — data taken from observations as much as 30 times the collection of data and historical data used from January 2016 to June 2017. By using the value stream mapping method on lean manufacturing, it can be seen that there are five types of waste from the existing seven waste. The five wastes are unnecessary motion, waiting, reject, transportation and in-process processes. From the results of the value stream mapping carried out a reduction in waste on each workstation with a total reduction of waste that occurs at 66.97 tons / year or 18.6% on waste gel and 88.8 tons / year or 19.3% at waste powder and there was a reduction in the changeover process for 45 minutes or 12.16% of the total changeover time before the improvement. Also, there was also an increase in the production process speed of 2 minutes 47 seconds or 4.52% from the lead time of the previous production process, 61 minutes 34 seconds to 58 minutes 47 seconds.

scholarly journals Peningkatan Produksi Minyak Sereh Wangi Pada Penyulingan Minyak Sereh Wangi Di Desa Cimungkal-Sumedang

2017 ◽  
pp. 105
Author(s):  
Nugraha Nugraha
Keyword(s):  
Production Process ◽  
Lead Time ◽  
Value Added ◽  
Oil Refinery ◽  
Oil Refining ◽  
Value Stream Mapping ◽  
Value Stream ◽  
Citronella Oil ◽  
Alternative Measures ◽  
The Village

Inability to fulfill the demand of consumers is becoming the major issues on citronella oil refinery in the village of Cimungkal Sumedang. This study was conducted to formulate alternative measures in order to increase the production of citronella oil distillates in the Cimungkal village. Mapping of the production process is done with Value Stream Mapping (VSM) as a first step to determine the processing time (lead time of production) and identify the waste that occurs, analyze the causes of the problems at the manufacturing level, and formulate remedial measures to increase the production of oil of citronella. The results show some activity in the production process of citronella oil which is a waste and should be minimized. By mapping, it can be seen that the lead time citronella oil refining initial amounted to 647 minutes or 10.78 hours. After repairs (Future State) improvements Total lead time to 274 minutes. Value-added activity increased by 38.93%, non-value added decreased by 3.63%, and necessary but non-value added fell by 35.3%. The study also resulted in the formulation of strategies that can be done to increase the production of oil of citronella. 

scholarly journals WASTE ELIMINATION USING VALUE STREAM MAPPING AND VALSAT

2017 ◽  
Vol 3 (2) ◽  
Author(s):  
Dion Avellino Suyanto ◽  
Sunday Noya
Keyword(s):  
Lean Manufacturing ◽  
Lead Time ◽  
Value Stream Mapping ◽  
Value Stream ◽  
Current State ◽  
Future State ◽  
Analysis Tools ◽  
Fierce Competition ◽  
Cycle Efficiency ◽  
Working Efficiency

Fierce competition encourages companies to make continuous improvements to achieve better working efficiency. One method to improve the working efficiency is using the concept of lean manufacturing. The efficiency of the existing work in PT. Rimba Kencana is still not good because there are many processes that are not uniform and because of that, production lead time is increased. By using value stream mapping and value stream analysis tools (VALSAT), the production processes in the company are mapped into the current state mapping and future state mapping. In the current state mapping, the total value of production lead time is 59.49 days and the value of process cycle efficiency (PCE) is 0.013%. After doing improvement on welding department, the total value of production lead time decreased to 48.22 days and the value of process cycle efficiency becomes 0.016%. Keywords: Efficiency, Value Stream Mapping, Value Stream Analysis Tools

scholarly journals A roadmap for improving the manifacture of automotive heat exchangers through value stream mapping

2019 ◽  
Author(s):  
◽  
Kate Lusiba
Keyword(s):  
Production Process ◽  
Heat Exchangers ◽  
Line Balancing ◽  
Value Stream Mapping ◽  
Automotive Manufacturing ◽  
Value Stream ◽  
Final Assembly ◽  
Work In Process ◽  
Value Stream Map

Lean manufacturing is an optimum approach for the reduction and elimination of waste within an organization. The case study company is based in South Africa and produces heat exchangers through main processes or fractals, which include pre-assembly, core building, brazing and final assembly. A walk through the plant showed that there was a large amount of inventory awaiting final assembly and that the brazing furnace often waited for material from core building. This was an indication that there could be an imbalance between the three fractals in terms of cycle time. Thus, the aim of this study was to improve the manufacturing processes for heat exchangers at the automotive manufacturing company through the deployment of value stream mapping, subsequent line balancing and developing a roadmap for reduction of waste. The case study research strategy was adopted for the study since it provided an in-depth view of phenomena. The first objective was to outline the production flow for the manufacture of automotive heat exchanger parts. The method used was a walk through the plant and observations were made to gain an understanding of the production steps from logistics production planning to shipping of the finished goods, and subsequently to a mapping-out of the production process flow was undertaken. The results showed that there was a large amount of inventory awaiting final assembly and that the brazing furnace often waited for material from core building. It was concluded that there was need to conduct a detailed process analysis to identify sources of waste. The second objective was to conduct value stream mapping for assessing the value- and non-value-adding activities in the manufacture of automotive heat exchangers components. A value stream map was developed through walking to Gemba and mapping out the production process, collecting data and pinpointing waste activities or areas to be improved. The kaizen flashes from the value stream map also revealed that operators were not fully utilizing the capacity of the bottleneck workstations. It was concluded that two instead of one planning points, and inefficiency at assembly were root causes of the high work-in-process level. The third objective was to conduct a line balancing analysis for the three production fractals. The method used was a Pareto analysis for evaluating the products, analysing the product mix and line balancing analysis of the production line. The results revealed that the furnace was run on two shifts while the subsequent assembly and preceding core building were running on three shifts causing a work-in-process build-up, thereby resulting in line imbalance. It was concluded that it was imperative to change the scheduling approach, and adopt one that prioritised and spread the cores that had relatively short cycle times, and also reduce downtime, change-over time as well as additional time for scrap and defects, and a future-state balance chart revealed that the fractals imbalance had been reduced. The fourth objective was to develop a roadmap for reduction of waste in the manufacture of car heat exchangers components. The method used was to develop proposals and assess the feasibility and cost implications of implementing each option. Recommendations were made for continuous process improvement and a roadmap for reduction of waste was proposed. In order to improve the output of assembly, training for the operators was recommended since it would also enable the removal of the second planning point at assembly. Further research could also be conducted to develop an optimal scheduling algorithm for allocation of products to work centres to ensure high utilization of work centres and reduce work-in-process inventory.

Implementation of the Lean Model for Carrying out Value Stream Mapping and SMED in the Aerospace Engine Case Production

2012 ◽  
Vol 542-543 ◽  
pp. 302-310 ◽  
Author(s):  
Chen Hua Wang ◽  
Jar Her Kao ◽  
Sanjay Kumar Thakur
Keyword(s):  
Production Line ◽  
Lean Manufacturing ◽  
Lead Time ◽  
Setup Time ◽  
Second Step ◽  
Value Stream Mapping ◽  
Value Stream ◽  
Current State ◽  
Industry Sectors ◽  
Value Stream Map

The lean manufacturing has been widely applied in the most of the industry sectors. Single Minute Exchange of Dies (SMED) is one of lean manufacturing tools that can be used to further reduce production waste. In order to ensure waste be effectively reduced, lean manufacturing has tools to achieve its goal. The first step is analysis of current state value stream map from the production line. The second step is the use of Single Minute Exchange of Dies to propose and carry out improvement actions in bottleneck process. In this study, the aerospace engine case production lead time was reduced from 9 weeks to 7 weeks by VSM method. The SMED method was applied to improve bottleneck’s setup time from 95.68 minutes to 76.97 minutes. The lean manufacturing tool can help factory to reduce inventory in the WIP.

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