General Plastics Mfg. Co.
4910 Burlington Way
Tacoma , WA 98409 US
LAST-A-FOAM® FR-7100 Multi-Use Foam Series: The economical, easy-shaping multitasker
General Plastics’ LAST-A-FOAM® FR-7100 multi-use polyurethane foam boards ably fill the bill for low-cost, easily finished, uniform stock material that won’t warp, twist or bow, whether under process or over time. Widely available in densities ranging from four to 40 pounds, this versatile workhorse supports a broad spectrum of uses. These include low-cost composite core applications; tooling and molds; architectural and styling models; CNC-machined topographical maps, prototypes and tool proofing; and industrial patterns, among other uses.
Smooth, Clean-Cut Qualities
FR-7100 is highly cost-effective to fashion and finish. This foam machines cleanly when using standard high-speed steel cutting tools and water jets, producing crisp lines. However, the foam is equally easy to cut by hand using simple woodcarving tools. Its fine cell structure and grain-free surface enable very smooth finishes. To achieve a smoother surface finish, higher density foam could be considered.
Other inherent differences in the FR-7100 series’ formulations and physical properties make it ideal for specific industries. The most common applications are models and prototypes, marine, composite core, and tooling.
Well-Designed for Models and Prototypes
The FR-7100 material truly shines as a medium for design models, product prototypes, topographical maps, environmental graphics, sculptures, carvings and industrial patterns. It is extremely easy to shape and carve with common woodworking tools. It cuts “like butter,” General Plastics technical sales representative Sean Meehan says, even with the use of sandpaper or other hand tools. For models and prototypes, the most common density range is 4 pounds to 12 pounds – and sometimes up to 15 pounds (the recommended limit for hand carving).
Meehan adds that above the 12-pound range, the density used is subjective. It typically depends on how the model or prototype is being used and the desired finish. For extremely high-quality prototypes and models where a smoother finish is required, customers may choose the 20- or 30-pound density – and occasionally even specify 40-pound for an item that will be displayed. However, it’s actually rare to use densities higher than the 20 pounds for prototypes and models.
As a commercial-grade versus “spec” foam, the FR-7100 foam series offers a lower price point with high availability, critical for satisfying often-tight lead times. “While our standard ship time is seven days after order acceptance, it can be shipped sooner to ensure customers meet their schedules.” said Meehan.
This LAST-A-FOAM® material’s superb value also explains its common use for prototyping and proofing applications. Often times, customers machine a prototype made from our FR-7100 foam to ensure that everything is on-point and correct in their programming before machining the final product in a more expensive material such as aluminum.
Shipshape for Marine Applications
Even with long-term exposure, the FR-7100 product line does not absorb water or retain moisture. It’s rigid, closed-cell characteristics prevent mold, mildew and any degradation of the material, making it an optimal composite core for marine applications. These include boat decks, transoms, engine mounts, freezer and non-load-bearing surfaces.
Light weight applications such as fish holds, for example, require superb insulation. The FR-7100 provides the highest R-value at 5.3 per inch when it’s glassed over, offering ample insulation for refrigeration. Since most fish holds have irregular shapes with a lot of contours, our material makes it easy to shape by hand using common woodworking tools. This application typically uses our 4 or 6-pound densities.
Typical densities for other marine applications:
- Boat decks – 10 pcf
- Transoms – 20-24 pcf
- Upper deck canopies – 10 pcf, 12 pcf and 15 pcf
“The density range for the canopies can be subjective, but often depends on whether any instruments will be mounted to those surfaces. If the boat will have a satellite or radar system, customers often lean toward the 15-pound density,” Meehan adds.
Composite Core Key Player
FR-7100 Multi-Use Core and Modeling Board foams are flame-retardant, strong, durable, and dependable, satisfying diverse composite applications, such as composite panel cores, machined foam parts, and composite layups. The foam series’ dimensional stability makes the material stress-free, eliminating any concerns that it will warp or bow. They are also chemically resistant with excellent compatibility with common resin systems and low resin uptake thanks to their fine cell structure which further reduces part weight and cost. This makes them ideal for fiberglass wet lay-up processing and resin transfer molding.
These foams can be sealed and painted using a wide array of primers, sealants and paints, and it bonds well with many adhesives. With FR-7100, there are no mold-release agents or other additives that could inhibit adhesion. It bonds easily to other composite materials and does not contain anything that could cause delamination of skins.
Easy adhesion also applies to bonding boards of multiple densities together. For example, if specific surfaces require higher strength characteristics – such as a higher-load-bearing section of sandwich panel – high and low densities can be combined in one layup and bonded securely prior to machining and finishing.
“There is nothing in the FR-7100 formulation – or any of our foams – that prevents adhesion of other materials,” explains Meehan. “This is a key advantage over some other core materials, whose composition creates issues with bonding and sealing or has poor resin compatibility.”
All densities of the FR-7100 series are appropriate for use within the composite core industry. What’s more, this product is offered in half-sheets, making it perfect when customers only require a small amount of material. Meehan cites the examples of boat and automobile manufacturers, or custom fabricators, who only need enough material to rework or refinish a small panel. “Not having to purchase a full 48” x 96” sheet is always a welcome cost savings,” he said.
Mastering Tooling and Molds
For tooling applications, the FR-7100 couples great machinability with excellent finish capabilities, and is well-suited to ambient layup processes such as casting molds at temperatures below 200ºF, thermoforming tools, mold patterns and low-volume vacuum-forming tools.
Similar to model and prototyping applications, surface finish is an important factor in product selection. This multi-use foam series enables finishing with a wide array of materials and primers. It also supports use of many different sealants, critical for preventing material transfer.
“When you’re laying up carbon fiber or fiberglass to a tool, and you pull that tool, you’re not physically removing that foam. What you will see is a reflection of the foam’s surface finish,” Meehan says. “While not visible to the naked eye, the foam’s fine cell structure contains pinholes that can transfer to parts or a master mold during layup, so you want a material like the FR-7100 that supports tight sealing.”
The number of pulls also frequently dictates product selection: Multiple pulls call for high-density FR-7100 foam, but for one-off tools, it’s often not needed.
Engineering students participating in the Formula SAE Collegiate Design Series choose General Plastics Last-A-Foam® for their projects. These teams compete to design, develop and test a small Formula-style racecar, where the prototype is evaluated for its potential as a production vehicle. One-off tool projects where students create a plug and then pull a master mold from that typically uses lower density foam.
The product’s physical properties create a stress-free, no-warp material – imperative for tooling processes when any movement is undesirable. Users also appreciate the absence of additives or debris in the material that can cause damage to machining equipment.
“Customers running CNC mills are concerned about tearing through equipment, especially ball mills that are doing the machining,” Meehan said. “Glass sphere additives, in particular, are extremely hard on the equipment, causing you to go through a lot of bits – and the costs add up. Because our material is non-abrasive with no damaging fillers, it doesn’t harm equipment or damage expensive cutting blades.”
LAST-A-FOAM® FR-7100 Multi-Use Core and Modeling foam is available as board stock and blocks in densities from four to 40 pcf. General Plastics can also supply the foam needed and machine it in-house to satisfy customer requirements.
A Message from General Plastics Mfg. Co.
As Seen In CompositesWorld
CAMX 2020 exhibit preview: General Plastics
General Plastics Manufacturing Co. is showcasing its LAST-A-FOAM core products, custom molding capabilities and high-temperature, low-CTE tooling board.
Composites suppliers, fabricators respond to coronavirus
Companies across the composites industry supply chain share how the COVID-19 pandemic is affecting their businesses, and how they are available to help.
CAMX 2019 exhibit preview: General Plastics
General Plastics Manufacturing Co. is showcasing its new LAST-A-FOAM FR-4800 tooling board at its CAMX 2019 booth.
CAMX 2018 preview: General Plastics
General Plastics (Tacoma, WA, US) is featuring its new high-temperature, low-CTE LAST-A-FOAM FR-4800 tooling board.
General Plastics launches ultrahigh-temperature tooling board
General Plastics Mfg. Co. (Tacoma, WA, US) expanded its line of high-temperature tooling board materials with the introduction of LAST-A-FOAM FR-4800, an autoclave-capable, high-density epoxy-urethane foam designed for master plug manufacturing, tool proofing, vacuum form tooling, pattern making, and short-run production tooling applications.
CAMX 2017 preview: General Plastics
General Plastics Mfg. Co. (Tacoma, WA, US) is showcasing its new LAST-A-FOAM RF-2200, a lightweight material that provides an RF-transparent protective layer for radome and antenna applications.
JEC World 2017 exhibit preview
JEC World will be held March 14-16 in Paris. CW previews some of the products and technologies that will be at the show.
JEC World 2016, the full report
CompositesWorld's editors report on the technologies and products that caught our eye at JEC World 2016, in early March.
Composites 101: Tooling
Composite parts are formed in molds, also known as tools. Tools can be made from virtually any material. The material type, shape and complexity depend upon the part and length of production run. Here's a short summary of the issues involved in electing and making tools.
CFRP camera boom enables safe spill inspection
NONA Composites’ 32m REACH structure meets tight remediation schedule at DoE radioactive waste storage site.
Composite tooling without oven or autoclave
No Oven No Autoclave technology has been demonstrated in tooling for NASA, including multiple thermal cycles and use for curing epoxy infused out-of-autoclave parts.
Pierce County trains skilled workers through collaborative curriculum building
Bruce Kendall, the president and CEO of the private, nonprofit Economic Development Board (EDB) for Tacoma-Pierce County (Wash.), reports on the success of a collaborative training curriculum development program that produces skilled workersfor the aerospace industry.
Tooling boards improve processes
In the composites industry, many parts are the product of one-off or few-of-a-kind production programs. In response, tooling material suppliers today provide an increasing variety of relatively inexpensive materials grouped under the heading of tooling board.
SAMPE 2009 Product Showcase
Showgoers at the SAMPE 2009 Conference and Exhibiton in Baltimore, Md. found many suppliers undeterred by poor economic news.
Taking Up Tooling Boards
Tooling Board ManufacturersEpoxy and polyurethane tooling boards are a standby for creating models or low-run-production tooling.
SAMPE 2005 Product Showcase
SAMPE's U.S. Symposium and Exhibition highlights technological innovation and market expansion.
Blast protection for large structures
Hardening of public buildings against terrorist threats represents a potentially huge market for antiballistic composites.
Getting To The Core Of Composite Laminates
A wealth of low-cost core solutions are available for high-performance sandwich structures.