8 Ways to Approach eCommerce in Manufacturing

| May 22, 2019
8 WAYS TO APPROACH ECOMMERCE IN MANUFACTURING
Many manufacturers overlook eCommerce because they do not believe their business models are suited for selling online. Manufacturers who solely serve their distribution channel partners, for example, may find an eCommerce store unnecessary because they don’t sell direct to the end user.

Spotlight

Hyundai Motor India Ltd.

Hyundai Motor India Limited (HMIL) is a wholly owned subsidiary of Hyundai Motor Company (HMC). HMIL is the largest passenger car exporter and the second largest car manufacturer in India. It currently has ten car models across segments – Eon, i10, Grand i10, Elite i20, Active i20, Xcent, Verna, Elantra, Creta, Tucson and Santa Fe. HMIL’s fully integrated state-of-the-art manufacturing plant near Chennai boasts advanced production, quality and testing capabilities.

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Additive Manufacturing: A Ground-breaking Change to Empower Industry 4.0

Article | November 20, 2021

Advanced manufacturing enables the concept of industry 4.0 and represents a significant milestone in the manufacturing industry. Additive manufacturing is a critical component of the industry 4.0 concept, propelling the industry to new heights of innovation. In various fields that are not immediately related to industry 4.0 or manufacturing, additive manufacturing has alternatively been referred to as 3D printing. The numerous advantages of additive manufacturing, such as reduced cost and time, are boosting its popularity and use in manufacturing and other industries. “Digital technology is so empowering on so many fronts, but for it to be empowering, it must be for everyone.” – Michael Walton, Director, Industry Executive (Manufacturing) at Microsoft. The global market of additive manufacturing is anticipated to increase at a 14.42 percent compound annual growth rate from USD 9.52 billion in 2020 to USD 27.91 billion in 2025. According to this market research, the future of 3D printing or additive manufacturing is quite bright in the coming years, and we will see widespread application across industries. First, let us understand the idea of additive manufacturing and its benefits to various industries. Concept of Additive Manufacturing Additive manufacturing is building a real thing from a three-dimensional computer model, often by successively layering a material. This technique utilizes computer-aided design (CAD) software or 3D object scanners to command devices to deposit material in exact geometric shapes layer by layer. As the name implies, additive manufacturing involves the addition of material to produce an object. Additive Manufacturing Benefits Produces Fewer Scraps and Trash When we compare additive manufacturing to traditional manufacturing techniques such as milling or turning, additive manufacturing adds only the amount of material required to build a product. As a result, it generates less waste and conserves scarce resources. Reduces the Time and Cost of Prototyping Making a product prototype is now faster, easier, and cheaper. Other production processes, like milling, have high setup and material costs. Prototyping is less expensive and takes less time, so you can quickly produce, test, and modify. It also shows practically instant verification of progress done. It Encourages the Digitalization of Businesses Continuous and effective communication between devices, machines, and robots is required for additive manufacturing. However, this is only achievable with effective digitization of production processes. As a result, businesses invest more in digital and IoT, a prerequisite for Industry 4.0. It Simplifies the Assembling Process by Condensing it into a Single Component Additive manufacturing in Industry 4.0 also simplifies the production process, especially product assembly. A traditional component requires numerous manufacturing procedures. This increases material and labor expenses as well as production time. However, additive manufacturing allows you to print the group in one piece. The Top Three Industries That Make the Most Use of Additive Manufacturing Additive manufacturing is presently used in a variety of industries. However, specific sectors make the best use of it. Thus, we will examine the industries embracing additive manufacturing technology and emerging with new life easing solutions. Healthcare In the healthcare industry, dentistry is the critical application of additive manufacturing. Technology helps it create bridges, crowns, braces, and dentures, always in high demand. Additive manufacturing has also been used to create tissues and organs, surgical tools, patient-specific surgical models, and personalized prosthetics. For example, many medical equipment companies employ 3D printing to build patient-specific organ replicas that surgeons can practice before completing complex surgeries. Aerospace Additive manufacturing is utilized to fabricate metal brackets that serve as structural components within airplanes. Prototypes are increasingly being printed in three dimensions, allowing designers to fine-tune the shape and fit of finished parts. In addition, interior airplane components such as cockpit dashboards and door handles are manufactured using 3D printing services. Automotive 3D printing can manufacture molds and thermoforming tools, grips, jigs, and fixtures for the automotive industry. Automakers utilize additive printing to customize parts for specific vehicles or drivers (e.g., seats for racing cars). An appealing colored dashboard, efficient fuel systems, and complicated braking mechanisms are all possible with 3D printing in the automotive industry. Therefore, it is best suited for pre-production, manufacture, and modification of automotive parts. How Does NASA use additive manufacturing in its space projects? The space environment has always been unpredictable, and scientists must be adequately prepared before embarking on any space mission. They must consider the durability and weight of all the objects they propose to transport into space. To land any object on a planet that does not have a flat surface or similar weather conditions to earth, scientists must design each object with these considerations in mind. “You always want it to be as light as possible, but you also want it to be strong enough.” -Chris Chapman, NASA Test Engineer It is not conceivable to make items capable of dealing with all the changes on other planets and achieving these project objectives using conventional materials and production processes. However, scientists do require a technique that will enable them to manufacture lighter and stronger objects for their space missions. 3D printing has played a significant part in meeting this demand and has provided space projects to manufacture objects that would withstand any unexpected events during space missions. For example, NASA employed 3D-printed metal components in their Mars project. NASA's specialized engineers are utilizing additive manufacturing to create rocket engines and possible Moon and Mars outposts. NASA used the 11 3D printed metal components on its Mars mission as well. It employed 3D printed components for the first time in the Curiosity rover, which landed on Mars in 2012. It was a successful project, and NASA has since begun employing 3D printed parts in its space missions to make machines lighter while remaining robust and functional. Final Words Additive manufacturing technology is making a real difference in the manufacturing process, and it is becoming the trending technology in the manufacturing industry. The benefits of additive manufacturing make the manufacturing process more advanced, easy, and customer-oriented. Additive manufacturing is the major transformation in the manufacturing industry and will take it to new heights of precision. FAQ Why is additive manufacturing critical? Additive manufacturing reduces the time and cost of prototyping and reduces the scraps amount during the manufacturing process of any object. In addition, it simplifies multiple processes from various industries. Are additive manufacturing and 3D printing the same? Yes, additive manufacturing and 3D printing are the same processes with different names as per the choice of the different industries. For example, in some industries such as space missions, It is also referred to as Fused Deposition Modelling (FDM). Which is the most applied sector for additive manufacturing? Healthcare is the industry that utilizes additive manufacturing technology the most. It also helps medical practitioners practice surgery on any critical body part with its 3D printed model from human tissues. { "@context": "https://schema.org", "@type": "FAQPage", "mainEntity": [{ "@type": "Question", "name": "Why is additive manufacturing critical?", "acceptedAnswer": { "@type": "Answer", "text": "Additive manufacturing reduces the time and cost of prototyping and reduces the scraps amount during the manufacturing process of any object. In addition, it simplifies multiple processes from various industries." } },{ "@type": "Question", "name": "Are additive manufacturing and 3D printing the same?", "acceptedAnswer": { "@type": "Answer", "text": "Yes, additive manufacturing and 3D printing are the same processes with different names as per the choice of the different industries. 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How to Find a Suitable Contract Manufacturing Partner?

Article | December 10, 2021

The benefits of contract manufacturing are triggering manufacturers to utilize it as a strategy to speed up production and increase revenue. According to BCC Research, the worldwide contract manufacturing industry should increase from $2.0 trillion in 2018 to $2.7 trillion in 2023, a 6.7% CAGR. Given the growing demand, contract manufacturing has a long way to go in innovating new solutions for manufacturers. As technology takes over and enhances many of the processes we used to handle with manual labor, we are freed up to use our minds creatively, which leads to bigger and better leaps in innovation and productivity. – Matt Mong, VP Market Innovation and Project Business Evangelist at Adeaca Let us look at the benefits and concept of contract manufacturing, often known as manufacturing partners in some circles. Contract Manufacturing: Concept and Benefits Concept Contract manufacturing is a business model in which a company agreeswith a contract manufacturer to make components or finished goods based on the hiring company's design. In short, it is a business model in which one company hires another company to manufacture components or goods for them or their products. Benefits The following are some of the primary advantages of contract manufacturing that attract manufacturers to adopt this concept and find a trusted supplier to manufacture any product or part of their product without much difficulty. Cost Efficiency: In contract manufacturing, companies do not have to pay for the facility, equipment, or labor needed. Resource Allocations: The money and resources saved through contract manufacturing can be redirected towards other company operations. Faster Lead Times: Hiring a contract manufacturer reduces manufacturing time. This improves market speed, delivery time, and customer service. Quality Control: Contract manufacturers are likely to have their own quality control processes in place, which allow them to spot counterfeit or damaged products early on. Advanced Skill Sets: Companies can benefit from the skills they may not possess, but the contract manufacturer does. Contract Manufacturing Examples Here are some examples of contract manufacturing companies that offer manufacturing services to other businesses and work on full-service outside manufacturing projects. Example 1: Kimball Electronics Group Kimball Electronics Group provides a comprehensive range of electronics manufacturing services, including engineering, prototyping, testing, electronic data interchange (EDI), new product introduction, and repair depot services. Soldering, assembly, reflow, de-paneling, flux application, inspection, screen printing, testing, and rework are all processes used in their manufacturing. Example 2: Scapa Healthcare Scapa Healthcare, headquartered in Knoxville, Tennessee, provides contract manufacturing services for medical and cosmetic products. Their portfolio of products includes sunscreen, silicone medical adhesives, and innovative materials. Additionally, the organization provides development, packaging, and logistics services. Things to Consider While Selecting a Contract Manufacturing (CM) Partner You need to know how to identify the ideal contract manufacturer for your business to accelerate production and produce high-quality items. Below, we've listed some of the most important things to keep in mind while looking for an outsourced manufacturing partner for your company. Competency Understanding a contract manufacturer's (CM) capabilities in terms of logistics and fulfillment is critical. Is your potential CM able to meet shifting product demands? How to use the CM's services? You may need one or more services from CM for your product, so always examine their capabilities or develop a list of their services and see which ones are valuable for you. Knowledge or Prerequisite A qualified, experienced, subject matter expert CM always correctly understands the requirements and delivers the services as per expectations and within the time frame specified in your production schedule. Always inquire about their qualifications or certificates in the places where your product will be manufactured. Compliance Any contract manufacturing plan must have an agreement or compliance clause. Always inquire about the compliance procedure and thoroughly understand the terms and claws to avoid future issues. Workforces Verify your possible contract manufacturer's personnel count. Is it easy to talk to them? Is labor skilled enough to meet the product's goals? It is critical for large-scale production and production, requiring swift responses. Any work force shortage might cause production delays. Gear & Expertise Check for machines and equipment as well as human labor in your possible CM. Many CM lease equipment to complete a project. So always check how the CM will organize the essential equipment for your project. Expertise in using the equipment is also necessary. Verify which machines were used and whether or not professionals were involved. Whereabouts The CM's location is the main factor to check. Because the CM may have numerous plants, knowing which plant is assigned to your product is essential to knowing every aspect of its production. Also, the assembly location must allow you to visit and inspect the manufacturing between cycles. Business Stability Finding a reliable contract manufacturer with solid financial backing and market roots is essential to avoid market scams. However, you must also analyze and solve risk factors like equipment failure, supplier capacity, and unreasonable expectations. Selection Myths of Contract Manufacturing Partner Once you've produced a list of shortlisted contract manufacturing partners who meet all of the criteria described in the preceding heading, you can proceed by following the steps below to select the best contract manufacturing partner. Look for Who is Willing to Invest in Your Business Incorrect. The objective is to find a vendor prepared to manufacture at a loss. A contract manufacturer's strength is that they can stay competitive and make a profit for both parties. Focus on Tier 1 CM Partners from the Market This one is indeed not acceptable. Tier 1 is a financial phrase used to separate large corporations from smaller ones. You want a contract manufacturer who understands your business and your needs. Don't worry about the manufacturing partner's size. Go Ahead with the One Who Offers the Best Services at the Lowest Price Trying to get the cheapest quote isn't always the best idea. You should get a quote from your contract manufacturing partner, but the quote may not always reveal the complete story. Cost per unit frequently captures approximately 75% of total supply chain cost. Some contract manufacturers charge the OEM the remaining 25%. Consider the complete picture while selecting a CM partner. Final Words Manufacturers use contract manufacturing to meet their commercial goals. Therefore, contract manufacturing is a win-win situation for both industrialists and contract manufacturers. Finding the proper contract manufacturing partner for your company is not straightforward, but our brief guide can help you identify the right manufacturing partner. FAQ What makes a good contract manufacturer? The most significant contract manufacturing firms are more than just supply chain partners. They recognize and treat your items as if they were their own, are meticulous in their operations, and are concerned with quality and capital. What differentiates contract manufacturing from outsourcing? A contract is a legally binding arrangement. It involves two or more parties. For example, outsourcing is outsourcing some tasks to an outside organization under a contract agreed upon by both parties. What's the difference between contract manufacturing and licensing? Contract manufacturing only outsources production phases, while licensing is far more complex. In return for fees, a corporation sells the right to utilize its intellectual property to another company. Licenses are like franchises. { "@context": "https://schema.org", "@type": "FAQPage", "mainEntity": [{ "@type": "Question", "name": "What makes a good contract manufacturer?", "acceptedAnswer": { "@type": "Answer", "text": "The most significant contract manufacturing firms are more than just supply chain partners. They recognize and treat your items as if they were their own, are meticulous in their operations, and are concerned with quality and capital." } },{ "@type": "Question", "name": "What differentiates contract manufacturing from outsourcing?", "acceptedAnswer": { "@type": "Answer", "text": "A contract is a legally binding arrangement. It involves two or more parties. For example, outsourcing is outsourcing some tasks to an outside organization under a contract agreed upon by both parties." } },{ "@type": "Question", "name": "What's the difference between contract manufacturing and licensing?", "acceptedAnswer": { "@type": "Answer", "text": "Contract manufacturing only outsources production phases, while licensing is far more complex. In return for fees, a corporation sells the right to utilize its intellectual property to another company. Licenses are like franchises." } }] }

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Technologies That Will Keep You Ahead in the Manufacturing Realm

Article | November 20, 2021

Modern manufacturing methods are pioneering and adopting manufacturing industry advancements. To remain competitive in the present era and provide the most excellent industry solutions to your organization and target customer group in 2022, you must employ new manufacturing technologies in your manufacturing processes. Additionally, embracing current technologies is the ideal approach to tackle the industry's current challenges such as workplace safety, digitalization of operations, and a lack of skilled workers. This article will discuss some of the leading manufacturing technologies that transform traditional manufacturing facilities into smart manufacturing factories. So, let us begin. Manufacturing Technology & Innovations for 2022 To better understand industry 4.0, let's look at some of the manufacturing technologies that will dominate the manufacturing industry in 2022. 3D Printing Numerous industries, including aerospace, healthcare, electronics, and architecture, utilize 3D printing in manufacturing. It is the most widely used technology across industries and will remain so in 2022 and in the years to come. We may also anticipate more advancements in this technology to help overcome current barriers to 3D printing adoption, including equipment costs, material constraints, lengthier manufacturing times, a lack of knowledge, and legal issues. Additionally, it would assist manufacturers in overcoming current manufacturing challenges such as increasing product demand, increasing automation, and locating and retaining the workforce in manufacturing plants. It is vital to incorporate 3D technology into production processes to achieve greater precision and accuracy in manufacturing. IoT The Internet of Things is a critical component of the industry 4.0 revolution. It has altered the environment of data collection and analysis across sectors. For example, the Internet of Things is assisting manufacturers in better understanding manufacturing and supply chain operations, forecasting product demand, and boosting customer experiences. Implementing IoT in your manufacturing plant will also help you avoid production delays and increase the performance of your production lines. Additionally, it will decrease equipment downtime and improve process efficiency. It also enhances worker safety and enables more effective labor management. To begin implementing IoT in your manufacturing plant, you must first examine your manufacturing processes and research how other organizations have implemented IoT in their manufacturing processes or products. This method will assist you in determining the optimal location to begin integrating the IoT in your manufacturing plants and transforming them into smart ones. “Once you start to look at yourself in the right way and realize that projects are at the core of your business, it is easy to see how you should use technology to support your business.” – Matt Mong, VP of Market Innovation and Project Business Evangelist at Adeaca. GD & T The model created in the CAD program for any product is not exactly replicated with the exact dimensions during the production procedures. Thus, manufacturers or engineers utilize GD&T (Geometric Dimension &Tolerancing) to manage and communicate the permissible variation within a product assembly to manufacturing partners and inspectors. GD&T is a programming language that enables developers and inspectors to optimize functionality without incurring additional costs. The primary advantage of GD&T is that it expresses the design intent rather than the final geometry. However, as with a vector or formula, it is a representation of the actual item. AR & VR The two primary transformation aspects in the industry 4.0notion are augmented reality (AR) and virtual reality (VR). AR technology in manufacturing enables firms to operate more efficiently by reducing production time. Additionally, it discovers and resolves manufacturing process difficulties. Virtual reality technology benefits the industrial business in a variety of ways. It enables product designers to mimic their prototypes or models using powerful virtual reality software. This enables them to correct faults at the first stage of production and minimize production time and cost. Additionally, the technology provides additional benefits, such as increased workplace productivity and safety. ERP Enterprise Resource Planning (ERP) refers to a comprehensive end-to-end software solution that is used across sectors. It assists the manufacturing business in successfully maintaining production processes and other operational data by avoiding numerous roadblocks along the way. ERP technology enables enterprises to improve process efficiency and product quality by tackling industry-specific difficulties such as insufficient data, operation integration, inventory control, supply chain management, and on-time delivery. Discover How John Deere Manufactured Their Tractors Using Cutting-edge Technologies John Deere is a significant firm that embraces innovation and the Internet of Things. The company integrates Internet of Things sensors, wireless communication, and intelligent land management systems. It further integrates IoT tools into its manufacturing process, bridging the gap between technologies. Additionally, the company is a pioneer in GPS technology. Its most modern technology, which it incorporates into tractors, is accurate to within two centimeters. Additionally, the organization has implemented telemetry technology for predictive maintenance. Final Words Manufacturing innovations are assisting manufacturers in modernizing their traditional manufacturing processes. Modern manufacturing is equipped with modern technologies that aim to improve the processes and goods, increasing the manufacturers' commercial revenues. So, to remain competitive in this age of technological innovation, manufacturers must update their manufacturing processes to remain relevant in today's manufacturing world. FAQ What is manufacturing innovation? Manufacturing innovation includes new technology, supply chain modifications, and product and process improvements. As a result, businesses can benefit significantly from innovation and typically surpass their competitors. Which technologies are considered to be a component of advanced manufacturing? 3–D printing, robotics, IoT, nanotechnology, cloud computing, robotics, and big data are the significant components of advanced manufacturing. How are cutting-edge technologies assisting the manufacturing sector? The cutting-edge technology can precisely estimate demand to set production objectives, analyze machine data to predict when parts will break before a human operator can detect, and more. { "@context": "https://schema.org", "@type": "FAQPage", "mainEntity": [{ "@type": "Question", "name": "What is manufacturing innovation?", "acceptedAnswer": { "@type": "Answer", "text": "Manufacturing innovation includes new technology, supply chain modifications, and product and process improvements. As a result, businesses can benefit significantly from innovation and typically surpass their competitors." } },{ "@type": "Question", "name": "Which technologies are considered to be a component of advanced manufacturing?", "acceptedAnswer": { "@type": "Answer", "text": "3–D printing, robotics, IoT, nanotechnology, cloud computing, robotics, and big data are the significant components of advanced manufacturing." } },{ "@type": "Question", "name": "How are cutting-edge technologies assisting the manufacturing sector?", "acceptedAnswer": { "@type": "Answer", "text": "The cutting-edge technology can precisely estimate demand to set production objectives, analyze machine data to predict when parts will break before a human operator can detect, and more." } }] }

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The 2022 Manufacturing KPI Checklist Should Include These Five Indicators

Article | December 23, 2021

Every manufacturing company aims to be as efficient as possible to maximize profit. However, it's difficult to determine where you stand and what targets to establish unless you can precisely measure your efficiency. Manufacturing KPIsplay an important role in this process. Keeping track of many indicators without considering their commercial worth is a waste of time. “Not everything that can be counted counts and not everything that counts can be counted” - Albert Einstein But connecting goals to measurements is a certain way to track progress and improve processes. So let's get started with how to choose the most appropriate key performance indicators(KPIs) for your business. Manufacturing KPI 2022: How to Choose the Right One? Why are KPIs called “Key” Performance Indicators? While any statistic can be used to assess performance, KPIs are the most critical. Hence they are called key performance indicators. Companies' priorities while selecting their company KPIs may differ substantially depending on the industry in which they operate. “Strategic-operational KPIs alignment gives the organization a powerful tool to use when implementing change.” ― Pearl Zhu A corporation should not track more than ten manufacturing KPIs to avoid overblowing processes. So, manufacturing efficiency, customer satisfaction, lead times, etc., should all be included. Depending on your business nature, you must select your KPIs. However, each of those indicators must meet a set of criteria before being considered meaningful. So, what is a decent KPI for manufacturing? It gives objective and clear data on progress toward a certain goal It measures efficiency, quality, punctuality, and performance It allows for tracking performance over time It helps in decision making It should be the one that matches the company's long-term objectives It has to be measurable and quantifiable It must be realistic and actionable Following that, let's have a look at the most important manufacturing KPIs for 2022, which will assist you in better understanding your manufacturing business and formulating a growth strategy in line with that understanding. Most Critical Manufacturing KPIs in Order of Priority Despite the fact that manufacturers should also monitor general key performance indicators (KPIs) such as sales revenue, net profit margin, and so on, the manufacturing business demands the tracking of specific manufacturing metrics. Below are some of the most important manufacturing key performance indicators (KPIs). Work-in-process Using this manufacturing KPI metric, you can see how much value there is in products still in progress. It assists manufacturing organizations in determining how much of their working capital is locked up in incomplete products and can aid in identifying supply chain managementdifficulties. You can compute the Work-In-Progress (WIP) by using the formula provided below. Return on Assets This manufacturing KPIseems to be more about financing than manufacturing. Yes, it does. However, financial measurements are just as vital as production ones. A firm cannot exist unless it generates revenue, and this indicator measures how efficiently your company uses its assets and generates revenues. The Return on Assets (ROA) of your company can be calculated using the formula below. Cost Per Unit It is critical to understand the overall manufacturing cost per unit. You can't appropriately price a product without it. This manufacturing KPIdivides total manufacturing costs by the number of units produced. Materials, overhead, depreciation, and labor are standard costs. Demand Forecasting Companies utilize this manufacturing statisticto forecast future raw material needs to satisfy client demand. Unfortunately, this statistic is more challenging to employ because it is mainly dependent on unpredictable external circumstances. The basic formula is: Where: The seasonal factors are distinct Average demand is calculated as: Lead Time A company's lead time, also known as order cycle time, is an important KPI. It shows how swiftly your organization processes orders and meets client requests. It is time it takes to complete an order from confirmation to delivery. Long lead times can imply process inefficiencies that produce bottlenecks and excessive expenses. Conversely, short lead times are important since they allow you to respond to consumer needs swiftly and efficiently. The total lead time can be divided into smaller segments as follows: The time it takes to manufacture a product from start to finish The time it takes to deliver a product from stockto a client The time it takes suppliers to deliver products to manufacturers By segmenting the lead time, you may more precisely identify the areas where inefficiencies in the process occur. Toyota’s Four Key Performance Metrics As a company, Toyota places a high focus on environmental protection. Toyota's vehicles are designed to use less fuel and produce less waste. Regardless of the company's size, Toyota is committed to protecting the environment. Toyota's 'Earth Charter' was created in 1992 as part of the company's Global Policy initiative. It was Toyota's first overseas facility and the UK's first ISO14001-certified car manufacturer. Waterborne paints were utilized for the first time and zero waste was sent to landfills. In 2009, Toyota Manufacturing UK did not use any incinerators. Toyota has developed a set of key performance indicators (KPIs) for each of its major production areas. There are four key performance metrics: energy, water, waste, and volatile organic compounds (VOCs). Since its start in 1992, Toyota Manufacturing UK has attempted to mitigate its environmental impact. The figure below illustrates the environmental KPIsfor the Burnaston plant. Each year, Toyota sets new goals to improve its results. 79% reduction in vehicle energy consumption 62% reduction in waste per car 76% reduction in VOC emissions per car 79% reduction in water consumption per vehicle Final Words You can use the aforementioned manufacturing KPIsto construct your manufacturing KPI template, but keep in mind that the manufacturing metricsyou need to track may differ from those listed here. The first prudent move any business can make while examining its operation is to identify and track the relevant KPIs. Also, in manufacturing, there are several different KPIs, phrases, and abbreviations need to be understood and used where it makes the most sense. FAQ What is manufacturing KPI? A manufacturing Key Performance Indicator (KPI) or metric is a well-defined and measurable indicator that the manufacturing sector uses to evaluate its performance over time and compare it to that of other industries. What are the key KPIs for manufacturers? On-Time Delivery, Production Schedule Attainment, Total Cycle Time, Throughput, Capacity Utilization, and Changeover Time are some of the key manufacturing KPIs.

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Spotlight

Hyundai Motor India Ltd.

Hyundai Motor India Limited (HMIL) is a wholly owned subsidiary of Hyundai Motor Company (HMC). HMIL is the largest passenger car exporter and the second largest car manufacturer in India. It currently has ten car models across segments – Eon, i10, Grand i10, Elite i20, Active i20, Xcent, Verna, Elantra, Creta, Tucson and Santa Fe. HMIL’s fully integrated state-of-the-art manufacturing plant near Chennai boasts advanced production, quality and testing capabilities.

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