Milacron Holdings Corp. announced that they’ve signed a first-of-its-kind distribution agreement with iMFLUX (a wholly owned subsidiary of Procter & Gamble). Through this distribution agreement, Milacron will integrate iMFLUX into their injection machine controls with native user interface (UI) and screens. Milacron will be the first machine manufacturer to integrate and offer this capability, and has certain exclusive rights to offer iMFLUX patented processing technologies as a fully integrated package. The Milacron M-Powered iMFLUX Module will reshape the molding industry, and Milacron will have the ability to include the M-Powered iMFLUX module directly in a customer's new machine or provide most existing Milacron injection molding machines with an M-Powered iMFLUX retrofit upgrade. The M-Powered iMFLUX Module is a cutting edge adaptive processing control and backed by years of processing exploration; the M-Powered iMFLUX Module will help to improve part quality and also decrease the energy required to produce it. As part of the M-Powered suite of tools, the iMFLUX Module and molding technology will allow for a number of real-time adjustments to mold and material changes. These real-time adjustments coupled with the other M-Powered analytical tools are designed to assist in improving OEE, offer desirable resin flexibility, and correct for common operational issues through adaptive process control. When coupled with existing M-Powered applications, iMFLUX allows data to be collected, analyzed, and utilized to improve performance and OEE through increased productivity, reduced scrap, improved quality, and the ability to automatically compensate for the changing conditions that occur in a molding operation. With iMFLUX, variations in process are a thing of the past. iMFLUX combines advanced data collection with intentional solutions so that a customer's machine is as effective as possible and maximizing productivity. Using Milacron’s M-Powered iMFLUX module, molders can increase productivity by up to 50% on existing injection molding machines. The process is ideal for most molding applications, but is especially advantageous for wide specification materials, recycled materials, and can help a biomaterial/bio-resin work for many more applications.