Automation & Robots Published1/9/2024 The Promise of a New Access-to-Capital Model . A free online loan prequalification tool currently offered in Colorado with the potential for introduction to other U.S. markets can enable manufacturers to more easily finance new technologies including automation equipment.#columns Tim HeatonPresident Colorado Advanced Manufacturing Association Share. Read Next . Lessons from a Machine Shop Literally on the Move. Pursuit of Parts Collector Spearheads New Enterprise. How Small Machine Shops Can Fight Supply Chain Problems. Manufacturers must automate and advance if they are to meet customer needs and create jobs. An online loan prequalification tool available through the Colorado Advanced Manufacturing Association can facilitate those efforts for companies in that state. (Photo credit: PM) The Colorado Advanced Manufacturing Association (CAMA) has launched a no-fee digital platform that streamlines, simplifies and expedites access to capital for small manufacturers, supporting job growth and economic development in a challenging market environment. The new loan prequalification tool, which is being piloted in Colorado before being introduced in other U.S. markets and industry sectors, was developed by Austin-based Access Capital Technologies, the digital arm of ACTCapital, a nonprofit organization serving community lenders and their small business and start-up clients nationwide. Featured Content . What Is Trochoidal Turning? How Might Shops Benefit From It? Machine Tool Search Made Easy Video: Why a Production Machine Shop Started a Baseball Bat Company Manufacturers must automate and advance if they are to meet customer needs and create jobs. However, financing new technologies amid rising interest rates is challenging. This new access-to-capital tool matches the manufacturer with the most suitable lender, taking time and guesswork out of the loan search process while enabling businesses to spend more time building their products. Through our CAMA website, Colorado’s? small manufacturers can access the user-friendly platform operated by ACTCapital. After answering a few essential questions, the program will match the manufacturer with the specific lending programs that will meet its needs. The manufacturer is in charge of the process and can select to which institutions it would like ACTCapital to refer its application. This process takes the guesswork out of the loan search process, enabling the manufacturer to spend more time building products. FirstBank, Key Bank and DreamSpring are among the community lenders partnering with CAMA to launch the initiative, noting that the new tool assists their organizations in supporting Colorado’s smaller manufacturing businesses. This new loan prequalification tool is being piloted in Colorado before being introduced in other U.S. markets. One of CAMA’s trusted Banking Partners is FirstBank. Kristen Bernhardt, president of FirstBank’s Northwest Market and a CAMA board member, says the company knows that manufacturers are vital to the U.S. economy, but they often deal with workforce and capital challenges. “We look forward to helping them find solutions to efficiently operate and grow their business and see the access-to-capital program as one of several ways we’re able to accomplish that,” she explains. Edmond Johnson, CMMA member and president and CEO of Premier Manufacturing, brings a new source of funding to Colorado manufacturers. Johnson is also the board chair of DreamSpring, one of the country’s top micro lenders. He believes the collaboration between CAMA and DreamSpring will result in many micro- and small-business manufacturers gaining access to capital — money they can use to advance technology-driven manufacturing in their facilities. Luther Branham, co-founder and managing director of ACTCapital, says this new access-to-capital platform can cut costs for new customer loan origination by nearly 70% and reduce acquisition costs by half, while almost entirely eliminating application rejections. He notes that ATCCapital provides fast access to the best lending product, interest rates and terms through technology that is easily scalable across different organizations. “We’re launching the platform with CAMA and its lending partners and will be adding more industry sectors and programs that support small businesses as we grow, focusing on underserved and often overlooked markets and communities across the United States,” Branham explains. This tool is an exciting first step in helping Colorado’s manufacturers digitize and transform their operations. Interest rates, however, will continue to make it difficult for manufacturers to borrow the funds to pay for these advancements. Recognizing this, CAMA is already working with ACTCapital to launch Phase Two of this access-to-capital tool. Phase Two, to be launched in early 2024, will include: An interest rate buydown program for CAMA members to make loans more affordable in a rising interest rate environment, and;. A small grant program to help offset any upfront costs on loans. . Automation is no longer a luxury for the few. With the 4th industrial revolution, automation is necessary for even the smallest manufacturers. CAMA hopes this tool will keep manufacturers in Colorado, and eventually across the country, competitive and profitable well into the future. About the Author. Tim Heaton. Tim Heaton is the President of Colorado Advanced Manufacturing Association. Landscape Photo Credit: PM RELATED CONTENT. What Is The Best Bar Feed System For Production Turning? . Selecting the right bar feeder can be one of the most important decisions a shop can make. Bar feed systems help improve productivity, throughput and quality, but in order to achieve the most benefit from them it is essential that a bar feed system be matched to the particular needs of the turning operation. Automating CNC Lathe Part Loading/Unloading . Read about how you can automate the loading/unloading of your CNC lathes to reduce the labor cost on longer running jobs. Choosing an Automatic Bar Feeder . The bar feeder is the most common form of automation for turning operations. Selecting the right one requires consideration of the applications for which it will be used. .

Published1/17/2024 Tips for Mastering Stainless Steel Machining. When getting a grip on stainless steel, make sure you are very specific in how you talk about it and understand the pertinent information you need. John Miller President, Way Of The Mill Share. Read Next . 5 Tips for Running a Profitable Aerospace Shop. World Machine Tool Production and Consumption Modestly Down in 2022. Five Common Mistakes Shops Make with ER Collets (And How to Prevent Them). Photo Credit: Way of the Mill LLC Reader Question:. Our shop has grown from primarily aluminum machining to now working in a diverse range of materials. Some we’ve figured out quickly, but stainless steel seems to be the most difficult for us to master. Can you offer some advice on managing tool wear in stainless? Miller’s Answer:. Your struggles are understandable. In my opinion, of all materials we are faced with as machinists, stainless steel is the most difficult to understand. Nonferrous materials are easy to machine, while irons and carbon steels are, if nothing else, predictable. Super alloys are very difficult, but by comparison, the portfolio of materials under this umbrella is much smaller, so there is less to solve, and you know it will be difficult. Stainless has the unique position of a diverse range of alloys, but also being very sensitive to the processing of that alloy. This means stainless steel as a genre can be uniquely described as being soft or super hard, free machining or gummy, as well as cheap or expensive. Featured Content . World Machine Tool Production and Consumption Modestly Down in 2022 Tips for Designing CNC Programs That Help Operators Zillow for Machine Tools? Due to this diverse genre, the most important thing when trying to get a grip on stainless is to make sure you are very specific in how you talk about it. I find machinists often oversimplify stainless as a singular type (304, 416 and so on) without understanding the more pertinent information they need, or their tool vendor needs to help them. To solve the problem of discussion, it can be simplified to classification, special characteristics, forming type and hardness. Classification is simply the alloys name, and it gives us some general information. This would be 304, 416, 17-4 and so on. You may also see terms such as austenitic, martensitic, ferritic, precipitation hardened and duplex used. These rank from easiest to machine to hardest, respectively, and refer to the family of alloys based on them. Special characteristics are those letters you see after the alloy number. 304“L” and 316“L”, for example, are low carbon versions of the same base alloy, while “H” would be high carbon. Some alloys have added sulfur to enable more efficient chipbreaking as well. Therefore, if you have a baseline recommendation from a speed and feed chart for a certain material, you can use these special characteristics to tune it. After establishing the alloy, the forming type is the most important — and most overlooked — aspect when discussing stainless steel. The problem of ignoring the forming type is that an alloy like 316 can be annealed (heat treated to reset the material to its base hardness), or it can be forged (or cold rolled), and work hardened up to more than double its original hardness. Therefore, it’s not enough to simply say “it’s 316L” and expect a magical combination of speeds and feeds. The cutting solution for something at 180 Brinell is entirely different than something at over 400. Lastly, hardness is as simple as the above point. When in doubt about the material, just find the real hardness from the material certification and base your starting speeds and feeds there. A softer stainless can be treated more like a low-carbon steel, and a harder one has many parallels to titanium. There may be some further tuning required if you witness premature tool wear, especially chipping and built-up edge. However, those are much easier to solve as you refine your process rather than scratching your head with the wrong initial cutting parameters. Once you are talking about stainless with the right mindset, next you must address process specific issues that could be hindering your performance, or ability to adapt to stainless steel and its many forms. First is coolant use and delivery. If you do dry machining or minimum-quantity lubricant (MQL), you can continue with these processes, but be aware of new potential for built-up edges compared to standard steels. If coolant is used, it must be applied in large amounts. High pressure and volume are a must with any material that makes long chips, and especially when those chips are considered sticky. If you feel your coolant is inadequate for the task, it may be time to upgrade that system, or into a machine with through-spindle coolant. Next is to explore your tooling. For the most part, end mills can cover a broader range of materials. There is a lot of overlap for steel and stainless-steel solid end mills and drills. However, for inserted tools, whether it’s turning or milling, you will need to source material specific inserts. Due to the gummier nature, a dedicated insert for stainless will be slightly sharper to combat this and reduce the cutting forces for harder applications, thereby reducing chatter and protecting the machine long term. While it may not be technical, some headache you may be experiencing is administrative in nature. Being late on an order because of mishaps at the machine is a pain and will make the mastery of stainless feel more cumbersome. Planning for this new venture with some sensible spare tooling will go a long way. A shop should also allow adequate time for jobs at first, until you get your standard processes settled in. Lastly, make sure your people are a part of this as well. Any new business strategy takes time to develop, so while some may see training events as time away from the shop, that small time away from the shop can shorten the learning curve in a big way.