The Troubleshooter: How to Interpret Plastic Injection Molding Data
At a Glance
- Properly quoting material part weight and minimizing waste is vital to plant profitability
- A plant’s primary goal is to keep all machines running as much as possible
- Scrap is one of the strongest inhibitors of full efficiency
Plastic injection molding is a complex business. There are many different data measurements that are key to determining success or failure on the production floor. Many companies fail to understand which data provide the best analysis key points, and that can lead to long-term failures. This article will identify the data collection points that best identify system failures. It will also recommend approaches to recognizing system failures and explain how to adjust and improve production scores.
Overall efficiency
True efficiency is determined by multiple data measurements that either benefit or detract from a production run. It is the primary measurement of a plant that establishes whether a company is succeeding or failing to perform well. The categories below are the key determining factors to calculate efficiency.
Quoted cycle
When quoting work to a customer, it’s critical to properly explain how much machine time will be required to produce parts to satisfy the customer’s timing requirements. Failure to meet deadlines not only places the customer requirements in jeopardy, it adversely affects a company’s ability to accurately schedule work. If a quoted cycle can be improved upon, plants reap efficiency rewards, and this also improves a company’s ability to improve scheduling procedures.
Material utilization
Properly quoting material part weight and keeping material waste to a minimum is vital to plant profitability. Poor material changeover practices and purging also are detrimental to a company’s success. Poor cleaning procedures of material-handling equipment negatively affect overall material utilization. Track all material usage accurately and effectively. Material shortages caused by poorly tracked material inventories lead to unnecessary mold changes and unplanned down time.
Machine utilization
Idle presses are profit stoppers! A plant’s primary goal is to keep all machines running as much as possible. Scrap and down time seriously inhibit press profitability! Unplanned maintenance is another example of machine time loss. Focus on reducing mold changes, drastic color changes, poor scheduling strategies, and large scrap events to improve machine utilization.
Labor utilization
Operators misused to perform production duties seriously hamper overall efficiencies. Be sure to plan operation strategies to effectively utilize the operators in your plant. When situations occur that limit your work force from performing production work, use them for housekeeping, part inspection/rework, and plant improvement to effectively streamline plant performance strategies. Plan labor utilization in advance whenever possible to ensure that your entire workforce is being used effectively.
Scrap
Scrap events are by far one of the strongest inhibitors of full efficiency. There are many different scrap factors that will lead to production instability. Startup scrap can sometimes occur due to poor changeover procedures. Improper mold changes lead to poor startup. Large scrap events that occur during startup can lead to poor overall profitability. Scrap also has a monumental effect on machine time. Presses producing large amounts of scrap adversely affect a company’s ability to meet customer demands and complicates scheduling. Scrap also triggers rework events. Operators must be used to reinspect parts on hold, which damages labor utilization numbers.
Yield
Production yield calculations determine machine efficiencies after scrap. If production efficiencies are at 103%, but scrap rates are at 10%, final yield is only at 93%, a clear indication that the production system has failed. Machinery that is not running at 100% capacity is not performing to the best of its capability and strongly affects a cell’s performance rating.
Production data is a clear and proven indicator of overall plastic plant performance. Failure to clearly analyze and respond quickly to this data can lead to poor, if not failing, plant systems. Quickly reacting to system data will lead to successful growth within your overall manufacturing system. Take the time to evaluate, respond to, and monitor the manufacturing process. It will give you all the tools you need to achieve success.
Article Source: Plastics Today