Custom Liquid Cooling Plate Solution CFD Thermal Simulation Support Hard Anodizing Corrosion Resistant Aluminum Heat Exchanger
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Product Overview Trumony specializes in high-volume production of stamped aluminum liquid cooling plates, utilizing advanced continuous brazing technology. Our plates are engineered for critical thermal management in electric vehicle battery packs, grid-scale energy storage systems, and high-power IGBT modules. By leveraging precision stamping and automated continuous braze furnaces, we achieve exceptional channel consistency, weld integrity, and cost efficiency at scale. As a factory-direct supplier, we offer complete one-stop service from concept design and prototyping to mass production and testing. Whether your project demands thousands or millions of units, our liquid cooling plates deliver the reliability and performance your application requires. Cause: Why Thermal Management Can’t Be an Afterthought · High-rate charging and discharging generate intense, localized
heat that passive cooling simply cannot dissipate. The market demands a liquid cooling solution that combines high thermal performance with repeatable manufacturing quality and competitive pricing. This is where our stamped and continuous-brazed cold plates outperform alternatives. Solution: Stamped Cold Plates with Continuous Brazing Trumony's core manufacturing approach solves these problems through two key technologies: Precision Stamping forms the coolant channel geometry by pressing aluminum sheet into precisely shaped dies. This method creates smooth, burr-free flow paths with excellent dimensional repeatability — critical for uniform thermal performance across every single plate in a production batch. Stamping also allows complex channel patterns, including multi-parallel and dimpled designs that enhance turbulence and heat transfer, without the cost and time penalties of CNC machining every part. Continuous Brazing joins the stamped plate to its cover in a controlled-atmosphere furnace that moves parts through on a conveyor. Unlike batch vacuum brazing, continuous brazing delivers higher throughput, uniform joint quality along the entire plate, and consistently low leak rates. The result: a robust, hermetic seal trusted by automotive and energy storage manufacturers worldwide. Combined, these processes give you a liquid cooling plate that performs flawlessly under pressure and thermal cycling — with the production capacity to support your ramp-up.Specifications Parameter Details
1. Electric Vehicle Traction Battery Packs 2. Commercial & Utility-Scale Energy Storage (BESS) 3. IGBT & SiC Power Module Cooling 4. Automotive Ancillary Electronics How It Works Stamped aluminum liquid cooling plates operate on a closed-loop liquid circulation principle. Coolant enters through an inlet fitting, flows through the stamped channel network beneath the heat-generating components, absorbs waste heat, and exits through an outlet to an external heat exchanger. The stamping process forms the intricate channel geometry directly into the aluminum sheet — creating raised features like dimples or chevrons that disturb the fluid boundary layer and enhance convective heat transfer. The cover plate is then joined via continuous brazing, where the assembly passes through a furnace with precisely controlled temperature and inert atmosphere. The brazing filler metal (typically a clad layer on the sheet) melts and forms a metallurgical bond along every contact point, creating a single, leak-proof structure. Because every plate undergoes identical automated processing, thermal performance is exceptionally consistent from the first unit to the millionth. How To Choose Your Stamped Cooling Plate 1. Heat Load & Flow Rate: Determine total watts to dissipate
and available coolant flow (L/min). Our engineers use this to
calculate required channel cross-section and plate size. Simply reach out with your requirements. We return a comprehensive proposal including die design feasibility, CFD thermal report, and transparent cost breakdown for prototype, pilot, and mass production phases. FAQ Q1: I don’t have a finalized design. Can you help from the concept
stage? Absolutely. That is the core of our one-stop service. Share your heat load, space envelope, and target thermal performance. Our engineers will propose an initial flow channel design, run CFD simulations for your approval, and then move to prototype. We guide you from idea to serial production. Q2: What is the minimum order quantity (MOQ) for custom liquid
cooling plates? We have no fixed MOQ for the prototype and NPI (New Product Introduction) stage. For mass production, we work flexibly with your volumes. As a factory serving global clients, we comfortably handle everything from small pilot runs to millions of pieces annually. Q3: How do you ensure zero leaks in a water-cooled battery pack? Quality is built in from the start. We use vacuum brazing for high-integrity joints and 100% test every single plate with a helium mass spectrometer, achieving leak rates tighter than 1×10⁻⁹ Pa·m³/s. Additionally, we conduct pressure cycling and thermal shock tests on pre-production samples validated according to customer durability requirements. Q4: Do you hold certifications for the North American and Asian
markets? Yes. Our manufacturing is certified to ISO 9001 and IATF 16949. Our materials and components comply with RoHS, REACH, and UL standards as required by your product. We are also experienced in supporting customers through final system-level UL 9540A or UN 38.3 certification by providing detailed design and material documentation. Q5: What kind of warranty and after-sales support do you offer for
your cooling plates? We stand behind our workmanship. Our standard product warranty is 5 years when properly operated within specified parameters. In the rare event of an issue, our engineering team provides root cause analysis and works to resolve it immediately. For ongoing production, we maintain complete traceability records tied to each batch. |
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| Product Tags: custom liquid cooling plate aluminum heat exchanger corrosion resistant CFD thermal simulation cold plate |
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