Black Friday Starts Now! Use Code 24BLKFRI30 for 30% Off Your 3D Printing Parts Order!
USA & Canada
USA & Canada
a graphic of a 3 dimensional polygon shape
Case Study

Lockheed Martin 3D Prints Fuel Tank Simulation with Help from Stratasys Direct Manufacturing

February 26, 2018
lockheed martin fuel tank

Lockheed Martin 3D Prints Fuel Tank Simulation with Help from Stratasys Direct Manufacturing

True innovators in aerospace know that fast development times and constant performance improvement are not the only essential qualities of a leader—it takes thorough testing processes, and the ability to control costs and reduce risk. One company accelerating innovation in aerospace is Lockheed Martin’s Space Systems Company (SSC). The division designs, develops, tests, manufactures and operates a full spectrum of advanced-technology systems for national security, civil and commercial customers.

"We chose Stratasys Direct Manufacturing because they have the machines and finishing capabilities to build tanks of this size."

Validation of design


In early 2012, Lockheed Martin SSC began looking at ways to improve and add value to their satellite design. The goal was to design a satellite that would make more efficient use of space and increase the satellite’s payload. It would require testing many assembly configurations and producing several simulators and prototypes to validate design changes. One change that needed to be validated was in the satellite’s fuel tanks.

Before building the actual fuel tanks for final use, Lockheed would need to test form, fit and function and assembly with tank simulators. Producing test parts with traditional manufacturing methods would not be realistic given the deadline and costs. Machining the larger tank at 6.75’x3.8’x3.8’ and the second tank at 3.8’x3.8’x3.8’ would take over 6 months and around $250,000. The recent advancements in large-scale 3D printing motivated Lockheed to apply Stratasys’ Fused Deposition Modeling (FDM) to the tank simulators.

Lockheed Martin is no stranger to 3D printing technology. In fact, they are considered a 3D printing leader for aerospace applications and own several additive manufacturing machines. But this particular application, part size, post processing requirements and project deadline posed a challenge for their in-house capacity. The parts would have to be built in many pieces and bonded together, requiring an army of machines and a team of FDM finishing experts. That’s when they turned to Stratasys Direct Manufacturing's aerospace team.

Constructing the tanks


Lockheed Martin has partnered with Stratasys Direct Manufacturing over the last several years to manufacture parts and often comes to Stratasys Direct Manufacturing when size, material or machine capacity limit their in-house additive manufacturing systems. Lockheed knew Stratasys Direct Manufacturing would deliver high quality parts on time and offered the engineering thermoplastic and finishing processes required for the form, fit and function tests.

“We chose Stratasys Direct Manufacturing because they have the machines and finishing capabilities to build tanks of this size,” said Andrew Bushell, senior manufacturing engineer at Lockheed Martin SSC. “We also decided to go with Stratasys Direct Manufacturing for their speed and engineering support we had received on past projects.”

When the Stratasys Direct Manufacturing's aerospace team received design files from Lockheed’s engineers, they were stunned with the size of the tanks. “These are the largest parts we’ve ever built using FDM,” said Joel Smith, the strategic account manager for aerospace and defense at Stratasys Direct Manufacturing. The project required many preliminary meetings between Lockheed and the Stratasys Direct Manufacturing team as it was the first time building a design of this magnitude. “We completed an extensive design review to determine the best orientation and slice height to ensure we could accurately build and bond the sections together in post processing and meet Lockheed’s dimensional requirements,” said Smith. Stratasys Direct Manufacturing landed on building the larger tank in 10 sections and the smaller tank in 6 sections in polycarbonate (PC) on the Fortus 900mcs.

Stratasys Direct Manufacturing and Lockheed had to adapt and make adjustments to the plan along the way to meet tolerances. “We decided to alter the orientation of the exterior clocking rings that go around the tanks and increase their wall thicknesses to support inserts,” said Trevor Stolhanske, aerospace and defense project engineer at Stratasys Direct Manufacturing. Each section of the tanks took 150 hours to build, but even so, Stratasys Direct Manufacturing was able to build multiple sections at once, maximizing lead times and controlling costs. After all of the sections were complete, the support material was washed away and the sections were sent to finishing services for bonding.

Because of their round shape and weight, the only way Stratasys Direct Manufacturing could successfully bond the tanks was to build customized fixtures to hold the sections while fusing pieces together. After several hours of welding each section together, Stratasys Direct Manufacturing sanded the tank seams and surfaces. After finishing, the tanks and rings were sent to Hutchinson Manufacturing, Inc. to be machined to the design’s critical dimensions. When Stratasys Direct Manufacturing received the tanks from Hutchinson, they added brass inserts to the rings and assembled the tanks per Lockheed’s specifications.

Final assembly


“These tanks were built in a fraction of the time it would have taken with traditional manufacturing methods. Even with the machining process and design changes made along the way, we were able to deliver these parts ahead of schedule” said Smith.

The tanks went through a number of quality assurance and accuracy measurements and were approved for the first concept assembly. Lockheed Martin’s Space Systems Company performed form, fit and function testing as well as process development, in order to validate the proposed design changes.

Next, Lockheed will take what they learned from the first phase and use the information to optimize the design and assembly to print the second iteration of tanks.

Learn more about Lockheed Martin’s Space Systems Company (SSC) at: lockheedmartin.com/us/ssc.html

Related Content

international space station freezer

International Space Station Freezer Receives 3D Printed Interior, Ducting

3D printing in the Space Station was critical in creating solutions for the ISS freezer. Read our case study today.

View more
sdm builds first 3d printed satalites

Stratasys Direct Manufacturing Builds the First 3D Printed Parts to Function on the Exterior of a Satellite

The FORMOSAT-7/COSMIC-2 mission will operate exterior, functional 3D printed parts in space for the first time in history.

View more
Antero 800NA is strong with excellent temperature, wear and chemical resistance.

FDM Antero™ 800NA & New Opportunities for Chemical Resistant 3D Printed Parts

FDM Antero™ 800NA solves manufacturing challenges with excellent mechanical properties and high chemical resistance.

View more
international space station freezer

3D printing in the Space Station was critical in creating solutions for the ISS freezer. Read our case study today.

sdm builds first 3d printed satalites

The FORMOSAT-7/COSMIC-2 mission will operate exterior, functional 3D printed parts in space for the first time in history.

Antero 800NA is strong with excellent temperature, wear and chemical resistance.

FDM Antero™ 800NA solves manufacturing challenges with excellent mechanical properties and high chemical resistance.