Company patents
TPI Composites, Inc.
TPI Composites, Inc. appears to be significantly shifting its patent strategy, with a notable decline across nearly all categories from 2024 to 2025. While Plastics Shaping & Molding remains its largest category at 72.5% of its portfolio, it saw a dramatic 91.7% decline in patenting activity in 2025, mirroring the 100.0% decline in Wind Motors / Turbines and Plastic Articles (Specific), suggesting a broad de-emphasis on these core areas.
Patent Trend by Technology Area
Yearly patent publications since 2023
Product themes
Product-level themes inferred from filings since 2023, with category chips showing where each theme appears. Select a theme to filter the patents below.
40 US filings (since 2023) · 7 categories · 9 themes
Methods for forming complex and lightweight structures from composite materials, typically involving fibrous reinforcement (e.g., carbon fiber) embedded in a resin matrix, for applications requiring high strength-to-weight ratios like aerospace or wind energy.
Methods and equipment for the efficient manufacturing, assembly, transport, installation, and maintenance of wind turbine components, particularly large structures like blades, towers, and generator modules.
Focuses on novel wind turbine blade designs, including internal structural elements like shear webs and spar caps, external aerodynamic enhancements such as chord extensions or serrations, and advanced materials or integrated sensors for improved performance, durability, and load management.
Methods and tooling for forming structural components from fibrous materials impregnated with resin, involving processes like prepreg handling, resin infusion, and co-bonding during curing.
Multi-layered materials incorporating fiber layers (e.g., carbon, non-carbon, fabric, mesh) within a polymer or ceramic matrix to achieve enhanced mechanical properties such as strength, stiffness, impact resistance, or tailored hardness for demanding structural applications.
Focuses on the structural integrity, housing, mounting, and physical integration of battery cells into robust and protected packs within electric vehicles, including manufacturing considerations.
Systems and methods for real-time or periodic assessment of turbine engine health, including detection of wear, damage, unbalance, or deterioration, to enable predictive maintenance and extend operational life.
Integration of additional functionalities or equipment with wind turbines, such as energy storage systems, hydrogen production (electrolysers), or hybrid energy harvesting combining wind with other renewable sources like hydrokinetic or wave power.
Techniques for combining multiple materials or layers, often with specialized surface treatments, coatings, or assembly methods, to create functional or aesthetically enhanced plastic articles, including consumer goods and encapsulated electronics.
Patents
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