Centered on the development direction of intelligent connected new energy vehicles and high-end equipment manufacturing, Fuda continuously builds an R&D innovation system with high-precision key components at its core, forming systematic capabilities covering product design, material processes, testing and verification, smart manufacturing, and supply chain collaboration.

The company possesses a National-Local Joint Engineering Research Center, a Postdoctoral Research Workstation, and a CNAS-accredited laboratory, with long-term focus on material, process, performance, and reliability research for crankshafts, clutches, new energy electric drive shafts & gears, robot precision reducers, and other products.

Fuda brings together R&D, process, quality, digital engineering, and high-skilled talent teams, forming composite innovation capabilities from product development, production line planning, intelligent system integration to digital autonomous deployment.

Over the past three years, the company's R&D investment has consistently remained above 5%, providing stable support for core process breakthroughs, smart manufacturing upgrades, and emerging industry layout.

The company has accumulated over 300 patents, including 78 valid invention patents in key areas.

Leveraging 5G+ industrial internet, AI process optimization, smart warehousing and logistics, full-process quality traceability, and supply chain collaboration platforms, Fuda is accelerating the construction of a full-value-chain digital-intelligence-driven smart manufacturing system for high-precision key components.

Fuda relies on CNAS-accredited laboratories and high-precision testing platforms to build a testing verification system covering material analysis, process verification, performance testing, reliability evaluation, and quality traceability, providing full-process quality assurance for the R&D and mass production of high-precision key components.

The company's testing center is CNAS accredited, with test reports having international mutual recognition validity, providing authoritative support for customer simultaneous development, product certification, and quality evaluation.

Equipped with key testing equipment such as scanning electron microscopes, residual stress analyzers, and fatigue testing machines, capable of conducting material microstructure analysis, stress detection, fatigue life testing, and assembly performance verification.

Centered on core products such as crankshafts, automotive clutches, new energy electric drive gears, and robot precision reducers, forming full-process testing capabilities from R&D prototyping, process optimization, performance verification to mass production quality control.

Through the collaboration of testing data, quality traceability, and process verification, continuously improving product reliability, consistency, and delivery quality, providing customers with full-lifecycle quality assurance from development to mass production.

Supported by 5G, industrial internet, big data, and artificial intelligence, Fuda builds a full-value-chain digital-intelligence manufacturing system covering R&D, production, quality, logistics, and supply chain collaboration, continuously improving manufacturing efficiency, quality consistency, and flexible delivery capability for high-precision key components.

Integrating core systems such as PLM, ERP, MES, WMS, SRM, and CRM to realize online collaboration and transparent management of production planning, materials, equipment, personnel, processes, and quality data.

Establishing a product traceability system from raw materials to finished product delivery, achieving precise tracking through unique identification codes, and improving quality consistency and problem response speed.

The company has established a single-piece product full-process traceability system from raw material receiving, process machining, in-process inspection to finished product delivery, achieving product digital identity management through unique identification codes, ensuring quality consistency, and significantly improving quality problem analysis, positioning, and response speed.

Based on demonstration projects such as the crankshaft digital forging workshop, integrating industrial internet, 5G, big data, and machine vision technologies to achieve closed-loop control of automation, informatization, and intelligence in the production process.

Looking ahead, Fuda will further advance the implementation of AI process parameter optimization, predictive equipment maintenance, AI visual inspection, and intelligent operations command scenarios, driving smart manufacturing upgrade from 'process digitization' to 'data-driven, intelligent decision-making, closed-loop optimization,' and building high-precision key component smart manufacturing capabilities with industry demonstration value.

Leveraging its capabilities in high-precision component R&D, testing verification, smart manufacturing, and quality data, Fuda provides customers with systematic solutions covering product development, performance optimization, failure analysis, process improvement, and mass production assurance, helping customers improve product reliability, consistency, and full-lifecycle value.

Relying on scanning electron microscopes, material analysis, residual stress detection, and failure case databases, conducting failure mechanism analysis for fracture, wear, and fatigue, accurately identifying root causes, and forming prevention, improvement, and reliability enhancement solutions.

Centered on high-precision components such as crankshafts, gears, and clutches, through structural simulation, dynamic balance analysis, and lightweight design, optimizing weight, vibration noise, and running smoothness while ensuring strength and fatigue life.

Based on accumulated expertise in materials, heat treatment, and surface strengthening processes, adopting solutions such as crankshaft fillet quenching, rolling strengthening, and heat treatment process optimization to improve component fatigue strength, wear resistance, and service life.

Through testing verification, in-process inspection, quality traceability, and manufacturing data analysis, providing customers with full-process support from R&D prototyping, mass production introduction to quality improvement, driving rapid problem response, continuous optimization, and quality closed-loop management.