下载文档原格式
生产流程英文Production Process of a ProductThe production process of a product is a series of steps that are followed to convert raw materials into finished goods. This process involves the utilization of various resources, including labor, machinery, and materials, to produce the desired output. In this article, we will discuss the production process of a typical consumer product.Step 1: Idea GenerationThe first step in the production process is idea generation. This involves brainstorming and conceptualizing a new product that meets the needs and demands of the market. Ideas can come from various sources such as customer feedback, market research, or internal research and development team.Step 2: Product DesignOnce an idea is generated, the next step is product design. This involves creating a detailed blueprint or design specification of the product. The design should take into consideration factors such as functionality, aesthetics, cost, and manufacturability.Step 3: Material SelectionAfter the product design is finalized, the next step is material selection. Materials are selected based on their suitability for the product's intended purpose, durability, availability, and cost. The selected materials are then sourced from suppliers.Step 4: ManufacturingOnce the materials are procured, the manufacturing process begins. This involves using various machinery and equipment to assemble the product. Each component of the product is manufactured separately and then assembled together to create the final product. Step 5: Quality ControlQuality control is an essential step in the production process. It involves inspecting the product at various stages of manufacturing to ensure that it meets the predetermined quality standards. This includes checking for defects, verifying measurements, and conducting functional tests.Step 6: Packaging and LabellingAfter the product is manufactured and passes the quality control checks, it is ready for packaging and labelling. This step involves packaging the product in an attractive and protective packaging material. The product is then labeled with relevant information such as product name, brand name, barcode, and usage instructions. Step 7: Distribution and LogisticsOnce packaged and labeled, the product is ready for distribution. This involves shipping the finished goods to warehouses or distribution centers from where they are later dispatched to retail stores or directly to customers. The distribution and logistics process ensures that the product reaches the end consumer in a timely and efficient manner.Step 8: Sales and MarketingOnce the product is available in the market, the sales and marketing activities begin. This involves advertising the productthrough various channels such as television, print media, online platforms, and social media. Sales teams are also engaged in promoting and selling the product to potential customers.Step 9: Customer SupportAfter the product is sold, the final step in the production process is customer support. This involves providing assistance to customers regarding product usage, troubleshooting, and handling any complaints or warranty issues. Excellent customer support helps to build customer loyalty and ensures customer satisfaction.In conclusion, the production process of a product involves several steps that transform raw materials into finished goods. Each step plays a crucial role in ensuring the quality, functionality, and marketability of the product. By following these steps, manufacturers can efficiently produce products that meet the needs and expectations of the customers.。
EDS公司-客户B企业运营内部调查问卷
生产制造
1. 接收订单和下单计划:物资需求计划(MRP)
a. 如何做预测?
i. 建立在收到的订单的基础上
ii. 建立在历史生产数据基础上
iii. 建立在销售和市场营销人员的建议基础上?
b. 如何管理例外的情况?
2. 生产计划编排–按工厂和下属机构
a. 用手工操作还是信息系统?
b. 如何排程?
c. 计划重新编制的频率?
d. 计划制定后是固定不变还是可以灵活调整的?
e. 你们怎样控制产品组合?有多少种型号?
f. 生产批量–一批的大小?
3. 质量控制
a. 在生产过程中的质量管理
i. 产品的质量控制有多少人?
ii. 如何记录跟踪质量的?
iii. 发现问题如何追溯?发现异常的通报程序?
iv. 如何利用信息?
b. 成品检测的质量控制 (与上面相同)
4. 生产能力和生产率如何?
a. 运行的设备有多少?
b. 有哪些资产,并且是如何处置的?是否充分利用那些旧机器?
c. 生产能力是多大?例如一周7天,每天24小时,每天3班倒:
起始装配线,中间装配线,最后装配线分别是几班倒?
d. 生产能力利用率为多少?
e. 浪费率?
f. 次品率?
g. 有效比率?(=成品数量/装配产品数量)
h. 返工成本?(返工不合格品的劳动力,材料,设备成本和沉淀成本)
5. 产品组合及产量 (1999/2000)
a. 产品线
b. 子产品线
c. 产品组合
d. 单位产品
e.。
高硼硅玻璃(High borosilicate glass)High borosilicate glassHigh borosilicate glass (also known as hard glass), because the coefficient of thermal expansion coefficient is (3.3 ~ 0.1) x 10-6/K, also known as borosilicate glass 3.3". It is a special glass material of low expansion rate, high temperature resistance, high strength, high hardness, high transmittance and high chemical stability, because of its excellent properties, is widely used in solar energy, chemical industry, pharmaceutical packaging, electric light, craft accessories industry. Its good performance has been widely recognized by all walks of life in the world, especially in the field of solar energy application is more extensive, Germany, the United States and other developed countries have been more widely promoted.Catalog1 produce history2 manufacturing process3 widely used4 characteristics5 manufacturing process6 Influence7 life products1 produce historyIn 1893, Otto Short (Otto Schott) invented borosilicate glass, which was resistant to chemical attack.2 manufacturing processBorosilicate glass is made by adding silicate sand, soda water and ground lime to glaze made of conventional glass. Because borosilicate glass melts at a higher temperature than ordinary silicate glass, some new technologies are needed to make industrial production. From welding trade borrowing, combined with the need for new natural gas burning oxygen.3 widely usedThe most famous glass manufacturers firko companies are using high borosilicate glass tubes for glass raw materials.The fire resistance and physical strength of borosilicate glass make it an ideal choice in the laboratory. It is a laboratory facility for making durable glass such as beaker and test tube. In addition, the minimum exposure to borosilicate glass allows precise measurements of the volume of borosilicate heat resistant containers for a period of time.In twentieth Century, borosilicate glass tube coolant was used for (usually distilled water) electronic equipment based on high power vacuum tubes, such as commercial radio transmitters.Glass cookers are another common usage. A borosilicate glass pie plate is almost the standard American dish. Borosilicate glass cup, with marking, graduation measurement, also widely used in the kitchen.Aquarium heaters are sometimes made from borosilicate glass. Because of its high heat resistance, it can tolerate water and nickel chromium alloy heating elements vary greatly in temperature.Many high quality flashlights use lens borosilicate glass. This makes the transmittance higher than that of the plastic and the low quality glass through the lens.Professional lighters and pipes are made of borosilicate glass. The high heat resistance allows the tubes to last longer, and the pipes are more durable.Most of the premanufactured Glass Guitar slides also make borosilicate glass.New wire drawing technology makes glass ball and other contemporary art applications. The modern glass art movement, led by the rapid development of borosilicate glass in 80s and 90s in the Nuosisita century color palette is provided, borosilicate glass suppliers broad economic growth. Borosilicate is commonly used in blown glass blowing forms and created by artists ranging from jewelry, kitchenware products to sculpture and art 70955.Borosilicate glass is sometimes used in high quality beverage glassware. Borosilicate glass lends durability to microwave ovens and dishwasher compatible Kitchenware and glassware.Most of the telescope mirrors are made of glass because of its coefficient of thermal expansion with low borosilicate glass. This makes very accurate optical surfaces likely to vary very little with temperature, and matches the glass mirror assembly, "tracks" changes in temperature, and retains the characteristics of optical systems.The most common optical glass lens manufacturing tool uses the Schott shoal - 7 (or equivalent from other manufacturers), a very fine borosilicate glass crown. It is also designated as 517642 glass after 1.517 refractive index and Abbe number 64.2. Other more expensive borosilicate glass, such as Schott B270 or equivalent, can be used to make "crown glass" glasses lenses. The cost of ordinary borosilicate glass, which is used to make kitchenware, and even reflective telescope reflector, cannot be used to cope with the high grade lens of glass grade and grade due to stripes and inclusions.The amount of tin penetration, the valence of tin and the depth of tin penetration on the surface of float borosilicate glass have a great influence on the quality of float glass and the deep processing of glass. The amount of tin penetration seriously affects the deep processing of glass.In contrast to borosilicate glass and sodium calcium silicate glass, the vapor pressure of tin increases by 142 times if the front temperature of the tin bath is increased by about 300degrees. So, in production of high borosilicate glass, glass liquid like in the steam bath tin, at the same time, due to the production of high borosilicate glass temperature improved several Baidu tin ion activity greatly enhanced the ability of tin ion penetration into the glass surface is greatly enhanced, the possibility of increasing the permeability of tin is greatly increased effect of tin penetration on glass, change the surface properties of larger, this is one of the problems to be solved by the float glass process.7 life productsHigh borosilicate glass high borosilicate glass has very low thermal expansion coefficient, high temperature resistance and 200 degree temperature change. High boron silicon glass used in electrical equipment heat reflective halogen lamp and lamp must use heat-resistant glass, such as microwave oven, microwave oven turntable special glass lampshade, stage light reflecting cup, drum washing machine observation window, glass teapot teacup, solar collector etc..。
1.0 Purpose 目的To make sure that production processes of all products are in effective control so that a stable quality could be guaranteed, and customer requirements could be met.目的为确保公司所有产品的生产过程能够在有效的管理状态下进行,保证质量稳定,满足客户要求。
2.0 Scope 范围Production of all Components made in our plant.本公司所有产品的生产过程。
3.0 Definitions 定义Production delivery date: it refers to the delivery date marked in by Logistics. All the planned processes must be satisfactorily completed before the date, including the final products inspection and packaging.生产交货期:是指物流部确认的交货期,在此之前必须完成所有的生产过程,包括最终检验及包装。
4.0 Procedure and Flow chart 程序及流程图4.1 Responsibility and authority 职责与权限4.1.1 AQP dept, is responsible for making the work instructions.项目部负责作业指导书制定。
4.1.2 Process engineer and quality engineer are responsible for making the inspection instructionof production working procedure, and also responsible for planning reference points ofdifferent working procedure.工艺工程师与质量工程师负责制订生产过程工序检验指导书和过程检验标准,并负责策划各工序控制点以及生产工艺流程。
加工厂产品处理流程The product processing workflow in a factory is an important aspect of the production process. 加工厂产品处理流程是生产过程中的一个重要环节。
It involves a series of steps and procedures that are necessary to transform raw materials into finished products. 这涉及一系列必要的步骤和程序,将原材料转化为成品。
From the initial inspection of raw materials to the final packaging of the products, every step in the processing workflow plays a crucial role in ensuring the quality and consistency of the end products. 从对原材料的初步检查到最终产品的包装,加工流程中的每一步都在确保最终产品的质量和一致性方面起着至关重要的作用。
One of the key perspectives to consider when examining the product processing workflow is the efficiency of the process. 在审视产品处理流程时需要考虑的一个关键视角是流程的效率。
Efficiency is crucial in a factory setting as it directly impacts the overall production output and cost-effectiveness of the operation. 效率对于工厂的运营来说至关重要,因为它直接影响着整体的生产产出和成本效益。
生产过程英语怎么说生产过程是工业企业资金循环的第二阶段。
在生产过程中,工人借助于劳动资料对劳动对象进行加工,制成劳动产品。
因此,生产过程既是产品制造过程,又是物化劳动和活劳动的消耗过程。
那么你知道生产过程用英语怎么说吗?下面跟着店铺一起来学习一下吧。
生产过程的英语说法1:productive process生产过程的英语说法2:Manufacturing Process生产过程的相关短语:生产过程控制 manufacturing control ; production control无人生产过程 unmanned manufacture工业生产过程部门 process industry sector生产过程确认 Validation of the productive process生产过程控制程序 production process control procedure生产过程的英语例句:1. Sheep's milk is produced in much the same way as goat's milk.绵羊奶和山羊奶的生产过程差不多。
2. The entire manufacturing process has been automated.整个生产过程已自动化。
3. Manufacturing processes may be affected by the functionality of the product.生产过程可能要受到产品设计目的的影响。
4. The production process is now highly mechanized.现在的生产过程高度机械化。
5. The factory manager used a flowchart to explain the production process.工厂经理用一幅作业图来说明生产过程.6. The whole food chain is affected by the over-use of chemicals in agriculture.整个食物链因农业生产过程过多使用化学品而受到影响。
制造与服务流程英文版IntroductionThe manufacturing and service process is a crucial aspect of any organization. It involves the systematic creation of products or the delivery of services to meet customer demands and expectations. This process typically consists of several steps, including planning, designing, sourcing, production, quality control, and distribution. In this article, we will discuss the manufacturing and service process in detail, including its various stages and key considerations.Stage 1: PlanningThe planning stage is the initial step in the manufacturing and service process. It involves analyzing the market, identifying customer needs, and setting goals and objectives for the organization. During this stage, the organization conducts market research and gathers information about customer preferences and demand trends. This information is then used to develop a production or service plan that aligns with customer requirements.Stage 2: DesigningOnce the planning phase is complete, the organization moves on to the designing stage. This stage involves creating detailed designs or blueprints for the products or services. In the case of manufacturing, this includes engineering the product, selecting suitable materials, and creating prototypes. In the service industry, designing involves creating service blueprints, defining customer touchpoints, and setting service standards.Stage 3: SourcingThe sourcing stage involves identifying and selecting the necessary inputs or resources required for production or service delivery. This includes sourcing raw materials, components, equipment, or software. In manufacturing, the organization needs to establish relationships with suppliers, negotiate contracts, and ensure a steady supply of inputs. In the service industry, sourcing may involve hiring and training staff, acquiring technology or software, or securing partnerships with third-party providers.Stage 4: ProductionThe production stage is where the products are manufactured or services are delivered. In manufacturing, this stage involves transforming raw materials and components into finished products through various processes, such as assembly, machining, or fabrication. Quality control measures are implemented to ensure that the final products meet the required specifications. In the service industry, production refers to the actual delivery of services to customers according to the predetermined standards. This may involve activities such as customer interactions, problem-solving, or service customization.Stage 5: Quality ControlQuality control is an essential aspect of the manufacturing and service process. In manufacturing, quality control involves conducting inspections, tests, and audits to ensure that the products meet the desired quality standards. It also includes identifying and rectifying any defects or deviations from specifications. Similarly, in the service industry, quality control involves monitoring customer feedback, evaluating service performance, and making necessary improvements to enhance the service quality.Stage 6: DistributionThe distribution stage involves the transportation and delivery of the products or services to the end-users. In manufacturing, this includes warehousing, inventory management, and logistics to ensure that the products reach the customers in a timely and efficient manner. In the service industry, distribution refers to the delivery of services to the customers' desired location, which may involve on-site services, online platforms, or physical service outlets.Key ConsiderationsThroughout the manufacturing and service process, several key considerations should be kept in mind. These include:1. Customer Satisfaction: The ultimate goal of the manufacturing and service process is to satisfy customer needs and expectations. Organizations should continuously seek customer feedback, measure customer satisfaction, and make necessary improvements to enhance the overall customer experience.2. Efficiency and Productivity: Organizations should focus on improving productivity and efficiency in each stage of the manufacturing and service process. This can be achieved through automation, process optimization, training, and continuous improvement initiatives.3. Sustainability: Organizations should also consider environmental and social sustainability aspects in their manufacturing and service process. This includes minimizing waste, reducing energy consumption, promoting ethical sourcing, and ensuring the well-being of employees and stakeholders.4. Technology Integration: The integration of technology, such as automation, robotics, and data analytics, can greatly enhance the efficiency and effectiveness of the manufacturing and service process. Organizations should embrace technological advancements and leverage them to gain a competitive advantage.ConclusionThe manufacturing and service process is a complex and multifaceted undertaking that requires careful planning, designing, sourcing, production, quality control, and distribution. By considering customer satisfaction, efficiency, sustainability, and technology integration, organizations can optimize their manufacturing and service process and meet the ever-changing demands of the market.Stage 7: Customer Service and SupportCustomer service and support are crucial aspects of the manufacturing and service process. Once products are delivered or services are provided, organizations need to ensure that their customers have a positive experience and have access to ongoing support. This includes providing assistance with product installation, troubleshooting, repairs, and addressing any customer inquiries or complaints. Organizations should have a dedicated customer service team and systems in place to handle customer interactions effectively. Providing excellent customer service and support is essential for customer satisfaction and can contribute to customer loyalty and repeat business.Stage 8: Continuous ImprovementContinuous improvement is an ongoing process that organizations should prioritize throughout the manufacturing and service process. This involves systematically identifying areas for improvement and implementing changes to enhance efficiency, quality, and customer satisfaction. Organizations can use various methodologies and tools, such as Six Sigma, Lean Manufacturing, or Total Quality Management, to drive continuous improvement initiatives. Regular audits, data analysis, and feedback from customers and employees can provide valuable insights for process optimization. By continuously striving to improve, organizations can stay competitive and adapt to changing market conditions.Key ConsiderationsIn addition to the key considerations mentioned earlier, there are several additional factors that organizations should keep in mind during the manufacturing and service process:1. Cost Management: Controlling costs is critical to maintaining profitability. Organizations should monitor and manage costs at each stage of the process, including production, sourcing, distribution, and customer service. This can involve negotiating favorable contracts with suppliers, implementing cost-saving measures, and optimizing resource allocation.2. Risk Management: Risk management is essential to mitigate potential threats and ensure business continuity. Organizations should identify and assess potential risks, such as supply chain disruptions, quality issues, or regulatory changes, and develop strategies to manage them. This may involve implementing contingency plans, diversifying suppliers, or maintaining safety stock.3. Collaboration and Communication: Effective collaboration and communication are vital for the successful execution of the manufacturing and service process. Organizations should foster a culture of teamwork and ensure that all departments and stakeholders are aligned and working towards common goals. Clear communication channels and regular meetings or updates can facilitate coordination and problem-solving.4. Compliance and Regulation: Organizations need to adhere to industry-specific regulations and compliance requirements. This may include environmental regulations, safetystandards, or labor laws. Compliance ensures that organizations operate ethically and responsibly, mitigating legal and reputational risks.5. Scalability and Flexibility: Organizations should design their manufacturing and service process with scalability and flexibility in mind. This allows them to adapt to changing market demands and handle increasing volumes efficiently. This may involve investing in scalable technology, designing modular systems, or implementing agile production methods.ConclusionThe manufacturing and service process is an intricate and dynamic undertaking that requires careful planning, execution, and continuous improvement. By considering key factors such as customer satisfaction, efficiency, sustainability, and technology integration, organizations can optimize their processes to meet customer needs, improve productivity, and stay competitive in the market. Additionally, by managing costs, mitigating risks, fostering collaboration, complying with regulations, and ensuring scalability and flexibility, organizations can effectively navigate challenges and seize opportunities for growth and success.。
生产加工流程英语The production and processing workflow is a critical component of any manufacturing or industrial operation. It encompasses the series of steps and activities involved in transforming raw materials or components into a finished product that is ready for distribution and sale. This workflow is designed to optimize efficiency, minimize waste, and ensure the consistent quality of the final output.At the heart of the production and processing workflow is the manufacturing process. This process typically begins with the procurement of raw materials, which may include metals, plastics, chemicals, or other essential components. These raw materials are then transported to the production facility, where they undergo a series of transformative steps to become the desired product.One of the key stages in the production and processing workflow is the planning and scheduling of the manufacturing process. This involves carefully coordinating the various tasks and resources required to ensure that the production line runs smoothly and efficiently. This includes determining the optimal sequence ofoperations, allocating labor and equipment resources, and managing inventory levels to minimize disruptions and delays.Another critical aspect of the production and processing workflow is quality control. Throughout the manufacturing process, various quality checks and inspections are performed to ensure that the final product meets the established standards and specifications. This may involve visual inspections, dimensional measurements, material testing, and other quality assurance procedures. By implementing a robust quality control system, manufacturers can identify and address any issues or defects early in the production process, reducing the risk of costly rework or product recalls.The production and processing workflow also encompasses the packaging and labeling of the finished products. This step is crucial for protecting the product during transportation and storage, as well as providing important information to customers and end-users. Packaging can range from simple boxes or containers to more complex and specialized packaging solutions, depending on the nature of the product and the requirements of the target market.In addition to the manufacturing process itself, the production and processing workflow also involves the management of supporting activities and resources. This includes the procurement and management of raw materials, the maintenance and repair ofproduction equipment, the coordination of logistics and transportation, and the management of human resources, such as hiring, training, and scheduling of production personnel.One of the key trends in the modern production and processing workflow is the increasing adoption of automation and digital technologies. Advances in areas such as robotics, sensors, and data analytics are enabling manufacturers to automate various tasks and processes, improving efficiency, reducing errors, and enhancing overall productivity. Additionally, the use of digital technologies, such as enterprise resource planning (ERP) systems and manufacturing execution systems (MES), is helping to streamline the production and processing workflow, providing real-time visibility and control over the entire manufacturing process.Another important aspect of the production and processing workflow is sustainability and environmental responsibility. As concerns about climate change and resource scarcity continue to grow, manufacturers are increasingly focused on implementing more sustainable and eco-friendly practices throughout their production and processing workflows. This may involve the use of renewable energy sources, the implementation of waste reduction and recycling programs, and the adoption of more environmentally friendly raw materials and manufacturing processes.In conclusion, the production and processing workflow is a complex and multifaceted process that is critical to the success of any manufacturing or industrial operation. By carefully planning, managing, and optimizing this workflow, manufacturers can improve efficiency, enhance product quality, and reduce costs, ultimately delivering better value to their customers and stakeholders. As the industry continues to evolve, the production and processing workflow will need to adapt and incorporate new technologies and sustainable practices to remain competitive and responsive to the changing needs of the market.。
生产过程的业务流程The production process of any business is a critical part of its operations. 任何企业的生产过程都是其运营的关键部分。
It involves a series of steps and activities that aim to transform raw materials into finished products or services. 它涉及一系列旨在将原材料转化为成品或服务的步骤和活动。
From manufacturing to service industries, the production process plays a crucial role in determining the quality, efficiency, and overall success of the business. 从制造业到服务行业,生产过程在决定企业的质量、效率和整体成功方面起着至关重要的作用。
One of the key aspects of the production process is efficiency. 生产过程的一个关键方面是效率。
Efficiency is vital for any business as it directly impacts the cost of production and the ability to meet customer demands.效率对于任何企业来说都至关重要,因为它直接影响生产成本和满足客户需求的能力。
A streamlined production process ensures that resources are utilized effectively and waste is minimized. 优化生产流程确保资源得到有效利用,并将浪费降到最低。
Manufacturing Process OptimizationManufacturing is a complex process that requires careful optimization to ensure efficiency and profitability. The optimization process involves identifying areas of improvement and implementing changes that will enhance productivity, reduce costs, and increase quality. The following paragraphs will explore the various perspectives involved in the manufacturing process optimization.From a business perspective, manufacturing process optimization is critical for profitability. The cost of manufacturing is a significant factor in determining the price of goods, and any inefficiencies in the process can lead to increased costs and reduced profits. Therefore, it is essential to optimize the manufacturing process to reduce costs, increase efficiency, and improve quality. This can be achieved by identifying areas that require improvement, such as production processes, equipment, and labor, and implementing changes that will enhance productivity and reduce costs.From an employee perspective, manufacturing process optimization can be beneficial or detrimental. On the one hand, optimization can lead to increased productivity, better working conditions, and improved morale. On the other hand, it can also lead to job losses, increased workload, and decreased job security. Therefore, it is essential to involve employees in the optimization process to ensure that their concerns are addressed, and their input is valued. This can be achieved by providing training, involving employees in decision-making, and ensuring that the changes implemented are fair and reasonable.From a customer perspective, manufacturing process optimization is critical for ensuring quality products at reasonable prices. Customers expect high-quality products that meet their needs and expectations, and any inefficiencies in the manufacturing process can lead to reduced quality and increased costs. Therefore, it is essential to optimize the manufacturing process to ensure that products are of high quality, delivered on time, and at a reasonable price.From a technological perspective, manufacturing process optimization involves the use of technology to enhance productivity and reduce costs. Technology can be used toautomate processes, monitor production, and improve quality control. For example, the use of robotics in manufacturing can lead to increased productivity, reduced labor costs, and improved quality control. Therefore, it is essential to invest in technology to optimize the manufacturing process continually.From a regulatory perspective, manufacturing process optimization involves complying with regulations and standards that govern the manufacturing process. Regulations and standards are in place to ensure that products are safe, of high quality, and meet the needs of consumers. Therefore, it is essential to comply with regulations and standards to ensure that products are safe and of high quality.In conclusion, manufacturing process optimization is critical for ensuring efficiency, profitability, and customer satisfaction. It involves identifying areas of improvement, implementing changes, involving employees, investing in technology, and complying with regulations and standards. Therefore, it is essential to approach the optimization process from multiple perspectives to ensure that all stakeholders are considered, and their concerns are addressed.。
