BRINGING CONCEPTS TO REALITY HAS NEVER BEEN THIS SIMPLE
OUR SPECIALLY DESIGNED ENGINEERING FACILITY BRINGS NEW AND OLD TECHNOLOGY TOGETHER TO BRING YOUR IDEAS TO REALITY
$7M+
INVESTED INTO MANUFACTURING
AND DESIGN EQUIPMENT
LATHE | OKUMA GENOS L3000e
OUR HIGH PRECISION ACTIVE HEAD LATHE ENABLES US TO TURN HIGH PRECISION PARTS WITH EASE, REPEATEDLY TURNING OUT PROTOTYPE PARTS TO SPEC. PAIRED WITH A BAR FEEDER, WE’RE EVEN ABLE TO TURN AROUND LOW VOLUME LRP ORDERS, SIMPLIFYING YOUR TRANSITION FROM PROTOTYPE TO PRODUCTION!
MILL | OKUMA GENOS M460-VE
POWERED BY OUR 3 AXIS MILL AND ITS UPGRADED +2 ROTARY TABLE, WE’RE ENABLED TO CREATE HIGH PRECISION PARTS AND PROTOTYPES. PAIRED WITH OUR DMLS PRINTER, WE’RE ABLE TO MANUFACTURE PARTS NEVER BEFORE POSSIBLE.
WIRE EDM | MAKINO SP-43
OUR PRECISION WIRE EDM IS CAPABLE OF CUTTING A LARGE VARIETY OF MATERIALS, ENABLING US TO PRINT LOW-MID VOLUME BLANKS, PROFILES, AND PRECISION PARTS.
DMLS | EOS 300-4
POWERED BY EOS, OUR DMLS PRINTER IS PRIMED TO PRINT ANY AND ALL TITANIUM PARTS. PAIRED UP WITH OUR MACHINE SHOP, NOT ONLY ARE YOUR PARTS PRINTED WITH PRECISION, BUT POST PROCESSED TO ENSURE COMPLIANCE.
DMLS | EOS 290
USING CUTTING EDGE DMLS TECHNOLOGY, WE’RE ABLE TO BRING YOUR CONCEPTS TO REALITY. WITH THE ABILITY TO POST PROCESS PRINTS, NOT ONLY ARE YOUR PARTS PRINTED WITH PRECISION, BUT ALSO POST PROCESSED TO SPEC.
FDM | FORTUS 450MC
OUR LINE OF FORTUS 450MC’s ENABLE US TO PRINT ANY AND ALL PLASTIC PROTOTYPES IN A MULTITUDE OF MATERIALS INCLUDING (BUT NOT LIMITED TO) ULTEM, ESD ABS, AND CARBON FIBER NYLON…
SLA | PHOZEN SONIC MEGA 8K
3D PRINT WITH PRECISION USING SLA. OUR TEAM OF EXPERTS WILL EVALUATE, ORIENT, AND PRINT YOUR PART WITH PRECISION. OUR SYSTEM IS CAPABLE OF PRINTING ANY AND ALL 405nm RESINS INCLUDING ABS-LIKE, TOUGH, CASTING, AND CERAMIC-LIKE…
GDP | MASSIVIT 1800 PRO
GDP (GEL DISPENSING PRINTING) IS A METHOD FOR PRINTING LARGE SCALE MODELS, AND POWERED BY A MASSIVIT 1800 PRO, WE CAN PRINT MASSIVE, LIFE-SIZE, ONCE PIECE MODELS.
REVERSE ENGINEERING / MODELING FROM 3D SCAN
USING A HIGH PRECISION 3D SCANNER, WE’RE ABLE TO TAKE AN EXISTING PART, CREATE A POINT CLOUD, AND GENERATE A HIGH PRECISION MODEL.
TOLERANCE STACK ANALYSIS
OUR TEAM IS TRAINED IN A TOLERANCE STACK SOFTWARE, ENABLING US TO ENSURE YOUR ASSEMBLIES FUNCTION AS INTENDED UNDER MAXIMUM AND MINIMUM MATERIAL CONDITIONS.
SIMULATION
POWERED BY SOLIDWORKS, OUR TEAM OF CERTIFIED EXPERTS ARE ABLE TO SIMULATE YOUR PARTS UNDER A MULTITUDE OF CONDITIONS INCLUDING LOADS, AERODYNAMICS, STRESSES, TOLERANCE, ETC…
DESIGN FOR ADDITIVE MANUFACTURING
ADDITIVE MANUFACTURING IS MORE THAN JUST PRINTING, DESIGNING PARTS FOR ADDITIVE MANUFACTURING IS A NEW WAY OF DESIGNING PARTS. OUR TEAM USES CUTTING EDGE PROCESSES AND DESIGN TECHNOLOGY SUCH AS TOPOLOGY OPTIMIZATION, POROCITY, AND LATTICE STRUCTURES TO MAKE YOUR PARTS LIGHTER, STRONGER, AND MORE OPTIMIZED.
WE SPECIALIZE IN
PRECISION PROTOTYPES
OUR DEVELOPMENT PROCESS
We OWN the process from helping discover your ideas to designing and testing, to low volume production and eventually to full rate production. Through our specially designed Product Development and Stage Gate process, we ensure quality through the finish line.
1
PRODUCT CONCEPTUALIZATION
Through discussion with the customer to product research, our team identifies product market fit, and determines the feasibility of development. Revtec identifies and explores several variations of concept with the customer and establishes a plan to begin design and development.
2
ENGINEERING & DESIGN
Through design, our team takes the concept most suited for the application and drafts it up in CAD. Here, we’re able to run simulations, tolerance stack analysis, and various other tools to help ensure your concept meets the robust needs of your customer.
3
PROTOTYPING
At this stage, our manufacturing team takes your concept to reality using our complete manufacturing lab. Kitted with a state of the art DMLS Printer, high temperature FDM printer, 5 Axis Mill, an active head lathe, and a wire EDM, we’re able to manufacture your prototypes with precision (and in a large variety of materials!)
4
PROTOTYPE TESTING
Through repetitive testing and iterating, parts are refined into their near-final versions. We verify the design functions under all required conditions and refines and improves where required.
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