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A 3D printed boat hull pattern, from which fiberglass boat hull molds are made, has been completed using a near net shape additive manufacturing process and then successfully used to produce a production capable fiberglass mold in a proof of concept joint evaluation program. The completed pattern was recently displayed at the AM2017 Additive Manufacturing Conference in Knoxville, Tennessee. 

Finished boat hull pattern - shown with Thermwood LSAM® 10'x20' machine

Finished boat hull pattern - shown with Thermwood LSAM® 10'x20' machine


A Collaborative Effort

This achievement was the result of a collaborative effort between Thermwood Corporation,Techmer PM and Marine Concepts. The tool was printed slightly oversized and then trimmed to final net size and shape using a Thermwood’s large scale additive manufacturing (LSAM®) system.

It was made from Techmer’s Electrafil© ABS LT1 3DP, which has proven ideal for marine tooling applications when processed using LSAM print technology. The entire print, assembly and trim process required less than ten working days to complete. After the printed and trimmed tool was coated and finished, a fiberglass mold was produced using the printed pattern. This effort clearly demonstrates the feasibility, practicality, economics and advantages of using additive manufacturing in the production of boat tooling. 

The Details

Thermwood LSAM® 10'x20' machine printing two of the six sections
Thermwood LSAM® 10'x20' machine printing two of the six sections

The final tool was printed in six sections, four major center sections with walls approximately an inch and a half thick and a solid printed transom and bow, which were pinned and bonded together using Lord plural component urethane adhesive before being machined as a single piece on the Thermwood system.

Bonding the boat hull pattern pieces together
Bonding the boat hull pattern pieces together

Bringing the two sections together

Bringing the two sections together

Boat hull pattern after bonding together and before machining
Boat hull pattern after bonding together and before machining

Thermwood LSAM® 10'x20' machining boat hull pattern
Thermwood LSAM® 10'x20' machining boat hull pattern

The final trimmed pattern weighs approximately three thousand pounds. It required approximately thirty hours to print and fifty hours to machine.

Final trimmed pattern before coating

Final trimmed pattern before coating

Thermwood’s demonstration machine, used for this program, has a 10 foot by 20 foot worktable and features both print and trim capability on the same machine. The print head used for this project can print at rates approaching 200 pounds an hour when running this particular Techmer material. Thermwood also offers larger machines and higher throughput print heads as part of its LSAM product line. LSAM 10'x20' Machine Shown


Pulling the Mold

 

Building frame on boat hull pattern to pull mold

Building frame on boat hull pattern to pull mold

Finished frame on boat hull pattern after casting the fiberglass mold
Finished frame on boat hull pattern after casting the fiberglass mold

Removing fiberglass mold from boat hull pattern
Removing fiberglass mold from boat hull pattern

Finished boat hull mold in red
Finished boat hull mold in red


Additive Manufacturing Could Change Marine Tooling Process

Additive manufacturing offers the promise of even more advances in marine tooling such as printing the hull and deck pattern as a single piece, allowing a production mold to be taken from the hull and then flipping the pattern over and taking a deck mold from the other side of the same pattern. All of these possibilities result in dramatically lower tooling cost and substantially faster build time. 

For large boats and yachts, Thermwood is evaluating the feasibility of printing molds directly, rather than printing a pattern from which the mold is taken. Because of their large size, these tools will need to be printed and machined in sections, even with very large LSAM® printers. It may also be possible to print integrated cooling channels for air or liquid into these large tools as part of the print process. 

With this initial success and some radical new ideas that appear to be possible with current materials and technology, it is becoming apparent that additive manufacturing may very well represent a disruptive force for the marine tooling industry.

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