Hot Stamping: An Ecomomic Leapfrog
In 1776, Thomas Paine described the fledgling American experiment in independence as, “These are the times that try men’s souls.” Today’s economic uncertainties likewise tug mightily at the corporate ranks, as metalformers of all sizes seek a more secure path through the economic thicket. Our industry needs a technological jolt to innovate its to prosperity; this is especially true for Tier Two and Three suppliers of metalformed parts.
This article attempts to propose just such an economic opportunity: hot stamping, a technology that currently resides primarily with OEM and Tier One suppliers. Also referred to as hot forming, hot press forming, press hardening and pressure-controlled hardening, the fundamentals of the technology are well established and have been proven economically viable worldwide.
Not Just for the Big Guys
Throughout the past several years there have been numerous articles published on hot stamping. This presentation differs from the rest, as it’s focused primarily on hot stamping as an opportunity for lower-tier metalformers. The word on the street is that there is an immediate need for hundreds of hot-stamped automotive parts just in the United States alone, not to mention the rest of North America.
The chicken and egg question als arises when I propose that metalformers consider hot stamping. That is: “Will they issue me a purchase order for hot-stamped parts before I commit to the process investment?” Frankly, this is absolutely the wrong to begin your inquiry about hot stamping. The more correct question to ask: “If I invest in hot stamping, can I expect to enjoy new opportunities from new and existing customers?”
In other words, I view hot stamping as a leapfrogging mechanism that can open doors within existing customer ranks as well as within a multitude of new ones.
A History Lesson
Evident in this photo of a Graebner hot-stamping line is the plumbing system on the back wall, for the line’s chiller.
The hot-stamping process, stripped to its bare essentials, begins with manganese-boron steel blanks—flat or preformed, depending on the process variation—fed either by robot or pick-and-place mechanism into an oven, where they are carefully heated. The heating process can cause scaling on the surface of the blanks, resulting in excessive die wear downstream—stampers can minimize the amount of scaling by specifying that the steel be supplied with a special coating.
Most ovens move the blanks in a linear manner over rollers that expose the blanks to intense heat over a period of several minutes. As stampers evaluate technology options, they should take care to inquire about other heating options, as there are several new oven designs entering the market.
As displayed in the accompanying (and simplified) continuous-cooling transformation (CCT) diagram, the blue line represents the heating and cooling process, with its tight timing window within which the hot-stamping process must occur. The trajectory of the blue line begins with the manganese-boron steel blank heated in an oven to about 950 deg. C, to allow the blank to reach the austenite phase.
|These photos from Schuler showcase a robot-tended hot-stamping line and the feeding of heated blanks into the die.|
After exiting the oven, each heated blank transfers to a hydraulic press via robot or pick-and-place mechanism. At this stage the blank has a strange muted glow to it as it settles into the lower die section. The press closes tightly to clamp the die shut at a relatively high tonnage—not so much for the forming process but for the need to create an extremely tight bond between the die surfaces and the part. The die is permeated with channels in its upper and lower sections, designed to distribute cooling water throughout. The tightly closed die functions as a heat sink, absorbing the heat from the part. The blank cools quickly, within seconds, by several hundred degrees until it reaches the martensite phase. This results in a lightweight blank with phenomenal strength characteristics.
Dies open and closed, stationed in an AP&T hot-stamping line. The closed die performs forming and cooling functions.
After a few seconds, the die opens and the automation device removes the part from the die and places it on a rack. Blank trimming typically is performed by laser cutting; alternative trimming techniques also are used.
The most engineering- and design-intense part of the entire process is the die. The die designer must be thoroughly familiar not only with conventional design and simulation software, but he also must be fluent with thermal-simulation software. Such software might include metallurgical-simulation software for the understanding of the metallurgical transformations of a particular part within the die. Other critical success factors include design of the cooling channels and the chiller, and the use of sensors to monitor performance.
Now let’s explore the potential economic opportunities hot stamping offers Tier Two and Three stampers. I am convinced that it is simply a matter of time before sectors other than automotive will adopt hot stamping to remove weight from, while strengthening, their products. Who would not want a lighter and stronger lawn mower? What about replacing machined or cast parts with hot-stamped parts? And how about the aerospace industry, where strength and weight als are a concern? Perhaps parts currently stamped from exotic materials such as titanium or magnesium alloys could be candidates for hot-stamped steel parts instead.
But how to pay for that first hot-stamping line? There are various grants available to help offset the costs of research and development in manufacturing. Your state likely offers such a program, a perfect opportunity to obtain at least partial funding for an experimental hot-stamping line that would allow a stamper to approach RFQs from current and potential clients for hot-stamped parts. Similar programs abound within the federal government. Such an experimental setup would allow a stamper to revisit current cold-stamped parts and perhaps develop viable and lucrative alternatives.In other words, I see hot stamping as allowing metalformers to take quantum leaps over their competition by opening up new markets for their companies. During the week of December 5, I will conduct the Big Sky Manufacturing Conference in Germany. Designed for North American metalforming executives not currently running hot-stamping lines, the event will afford the opportunity to visit German stamping shops running cold-forming lines as well as hot-stamping lines. For more information, visit www.mfgadvice.com. MF
See also: Tecknow Education Services, Inc.
Aichelin-USA will be installing a Hot Press Furnace for heating stamped parts upstream from the press. We would be pleased to meet with those that have need or interest in this type of equipment
We are an hotforming die maker located in Italy with over 15 years of experience. We sold HFdies everywhere in the world (US, China, Europe and Korea)
please send list of Hot Stamping die builders if you have
thanks for the feedback ! -ed
Great article!! Would love to see some government funding step up for Tier 2 suupliers like us to help open up endless possibilities and create even more jobs here local and around the world.