Types of Lectra Automatic Fabric Cutting Machines
A cutting layup in textile manufacturing can range from just a few layers to over one meter in height when using a Lectra automatic fabric cutting machine. Two critical factors in this process are optimal cutting accuracy and enhanced productivity. A large cutting surface is essential, as oversized layups can become impractical and difficult to manage. The cutting table plays a vital role by providing a stable, level platform that supports and secures the fabric during precision cutting operations.
Lectra, a global leader in smart factory solutions for the textile and apparel industries, offers a range of advanced automatic fabric cutting machines designed for high efficiency, precision, and versatility. Below is a detailed overview of the primary types of automated cutting technologies used in Lectra systems and similar high-end industrial applications.
Multi-Layer Cutting
Designed for high-volume production, multi-layer cutting allows simultaneous slicing through stacks of fabric—sometimes exceeding 50+ layers—using precision-controlled blades or laser systems.
Advantages
- High throughput for mass production
- Maintains consistency across all layers
- Reduces labor and cutting time significantly
- Ideal for standardized garment components
Limitations
- Requires uniform fabric tension across layers
- Thicker stacks may reduce edge precision
- Higher energy and maintenance demands
Best for: Apparel manufacturing, uniform production, large batch cutting
Laser Cutting
Laser cutting uses a focused, high-intensity beam to follow digital patterns with micron-level accuracy. It's especially effective for intricate designs and delicate fabrics.
Advantages
- Exceptional precision for complex shapes
- Seals fabric edges to prevent fraying
- No physical contact = no material distortion
- Minimal waste and no need for seam allowances
Limitations
- Not suitable for highly reflective or PVC-coated fabrics
- Higher initial investment and operating costs
- Requires ventilation for fumes
Best for: Technical textiles, fashion prototypes, intricate patterns
Ultrasonic Cutting
This technology uses high-frequency vibrations (typically 20–40 kHz) to cut and seal synthetic fabrics simultaneously, making it ideal for performance and sportswear materials.
Advantages
- Cuts and seals edges in one pass
- Reduces need for finishing processes
- Energy-efficient and clean operation
- Excellent for bonded and laminated fabrics
Limitations
- Limited effectiveness on natural fibers like cotton
- Blade wear requires regular maintenance
- Less versatile than laser for complex designs
Best for: Activewear, medical textiles, technical outerwear
Automatic Cutting Table
A computer-controlled cutting table integrates CAD/CAM software with robotic arms or moving cutting heads to execute precise, repeatable cuts on large fabric spreads.
Advantages
- High degree of automation and integration
- Supports multiple cutting tools (blade, laser, ultrasonic)
- Real-time adjustments via software
- Scalable for different production volumes
Limitations
- High upfront cost and space requirements
- Requires skilled operators and IT integration
- Dependent on software stability and updates
Best for: Integrated smart factories, digital workflows, high-mix production
Die Cutting
Uses custom-shaped dies (molds) to punch out fabric pieces in large quantities. Often used for repetitive, standardized components like labels or pockets.
Advantages
- Extremely fast for repetitive shapes
- Consistent results with minimal variation
- Durable dies last for thousands of cuts
- Low operational cost per unit at scale
Limitations
- High setup cost for custom dies
- Limited flexibility—only one shape per die
- Not suitable for complex or variable designs
Best for: Mass production of identical parts, accessories, trim components
Lay Cutting
Involves stacking multiple fabric layers (a "lay") and cutting them all at once using automated blades or lasers. Essential for efficient pattern replication in garment production.
Advantages
- Maximizes material utilization
- Enables batch processing for efficiency
- Compatible with various fabric types
- Integrates with nesting software for optimal layout
Limitations
- Requires precise fabric alignment and tensioning
- Thick lays may compress lower layers
- Time-consuming lay preparation
Best for: Cut-to-order production, seasonal collections, multi-size runs
| Type | Precision | Speed | Fabric Compatibility | Ideal Use Case |
|---|---|---|---|---|
| Multi-Layer Cutting | High | Very High | Broad (except delicate) | Mass garment production |
| Laser Cutting | Very High | High | Synthetics, blends | Intricate designs, prototyping |
| Ultrasonic Cutting | High | High | Synthetics, laminates | Seamless sportswear |
| Automatic Cutting Table | Very High | Variable | Universal (tool-dependent) | Smart factories, digital workflows |
| Die Cutting | Moderate | Very High | Limited (shape-specific) | High-volume accessories |
| Lay Cutting | High | High | Most fabrics | Batch apparel production |
Expert Tip: For optimal results with Lectra systems, integrate advanced nesting software to maximize fabric utilization and reduce waste. Regular maintenance of cutting heads and calibration ensures long-term precision and machine longevity.
Specifications & Maintenance of Lectra Cutting Machines
Lectra cutting machines are precision engineering solutions widely used in the textile, automotive, and apparel industries. Understanding their key specifications helps buyers compare models, assess performance capabilities, and make informed purchasing decisions. Additionally, proper maintenance ensures consistent accuracy, extends machine lifespan, and minimizes downtime in high-volume production environments.
Key Specifications to Consider
Cutting Width
Cutting width, also known as fabric width, defines the maximum lateral dimension of material the machine can process. This specification is crucial for handling large fabric rolls or multi-layer spreads. For instance, the Lectra Focus 3 supports a cutting width of up to 3,500 mm, making it ideal for broad textile applications such as upholstery or technical textiles.
Choosing a machine with adequate cutting width ensures efficient use of space and reduces the need for multiple passes, improving throughput and reducing labor costs.
Cutting Depth
Cutting depth refers to the maximum thickness of stacked material the blade can penetrate in a single pass. The Lectra Focus 3 offers a cutting depth of 100 mm, enabling it to handle multi-layer fabric stacks commonly used in garment manufacturing.
This capability is especially valuable in high-volume production where efficiency depends on cutting dozens of layers simultaneously without compromising edge quality or dimensional accuracy.
Cutting Speed
Cutting speed varies significantly across Lectra models and is influenced by fabric type, layer count, cutting mode (contour vs. through-cut), and design complexity. The Lectra Focus 3 operates at a standard speed of 2 meters per minute, optimized for precision in delicate fabrics.
In contrast, high-speed models like the FinalCut Club A can reach speeds of up to 10 meters per minute, ideal for large-scale operations requiring rapid turnaround. Selecting the right speed-capable model balances productivity with cut quality.
Accuracy & Precision
Precision is a hallmark of Lectra machines, with many models achieving cutting accuracy within ±0.1 mm. This level of consistency ensures perfect pattern alignment, reduces material waste, and enhances garment fit and finish.
Advanced sensor systems, real-time feedback mechanisms, and vibration-dampening frames contribute to this exceptional accuracy, making Lectra machines suitable for luxury fashion, automotive interiors, and medical textiles where tolerances are tight.
Blade Options & Tooling
Lectra machines support a variety of cutting tools tailored to different materials and cutting requirements. Rotor blades provide smooth, continuous cuts ideal for curved patterns and stretchable fabrics, while straight oscillating blades excel at clean, linear cuts in heavy or layered materials.
Some models also support specialized tools like kiss-cut blades, creasing units, or perforation modules, expanding functionality beyond basic cutting. Choosing the right tooling setup enhances versatility and supports complex production workflows.
Cutting Area & Table Size
The cutting area defines the usable workspace on the machine bed where materials are laid and secured. The Lectra Focus 3 features a maximum cutting area of 1,760 x 500 mm, optimized for mid-sized production runs.
Tables are equipped with vacuum suction systems and alignment guides to hold fabric securely during cutting, preventing shifting and ensuring consistent results. Larger models offer extended tables for full-pattern layouts, reducing the need for拼接 (pattern joining).
| Specification | Example Value (Lectra Focus 3) | High-Performance Model (e.g., FinalCut Club A) |
|---|---|---|
| Cutting Width | 3,500 mm | Up to 3,600 mm |
| Cutting Depth | 100 mm | Up to 120 mm |
| Cutting Speed | 2 m/min | Up to 10 m/min |
| Accuracy | ±0.1 mm | ±0.1 mm |
| Cutting Area | 1,760 x 500 mm | Up to 3,600 x 1,400 mm |
Essential Maintenance Practices
Important: Neglecting routine maintenance can lead to decreased cutting accuracy, increased material waste, and unexpected breakdowns. Always follow the official Lectra service manual for model-specific procedures. Scheduled professional servicing, combined with daily operator checks, ensures peak performance and protects your investment in precision cutting technology.
Usage Scenarios of the Lectra Automatic Fabric Cutting Machine
The Lectra automatic fabric cutting machine is a cutting-edge solution engineered for precision, speed, and reliability across a wide range of textile and manufacturing applications. As a leader in digital cutting technology, Lectra’s systems are designed to meet the evolving demands of industries that require high-volume, accurate, and repeatable fabric cutting with minimal waste and maximum efficiency.
These advanced machines are particularly valuable in large-scale production environments where consistency, throughput, and material optimization are critical. By integrating Lectra’s automated cutting systems, manufacturers can streamline operations, reduce labor costs, and ensure that each fabric piece meets exact design specifications—delivering seamless integration with downstream sewing and assembly processes.
Beyond efficiency, Lectra’s technology supports innovation through intelligent nesting software, real-time monitoring, and compatibility with a broad spectrum of fabrics—from delicate silks to heavy-duty technical textiles. Below are the key industries and use cases where the Lectra automatic fabric cutting machine delivers transformative value.
Apparel & Fashion Industry
Lectra’s cutting machines are a cornerstone in modern garment manufacturing, enabling fast and precise cutting of complex patterns for a wide variety of clothing items.
- Ready-to-wear production: High-speed cutting of dresses, blouses, shirts, skirts, trousers, and outerwear with consistent quality across thousands of units.
- Bespoke and premium fashion: Accurate handling of intricate designs, layered fabrics, and embellished materials without compromising detail.
- Mass customization: Supports flexible production lines for made-to-measure garments using integrated CAD/CAM workflows.
- Sustainable fashion: Advanced nesting algorithms minimize fabric waste, supporting eco-conscious brands in reducing environmental impact.
Key benefit: Seamless integration with design software ensures rapid prototyping and faster time-to-market.
Upholstery & Home Furnishings
In the furniture and interior design sector, Lectra machines deliver precision cutting for both functional and aesthetic components.
- Furniture manufacturing: Efficiently cuts fabric for sofas, armchairs, dining chairs, ottomans, and modular seating systems.
- Curtains and drapery: Handles large fabric rolls with consistent tension control for uniform panel cutting.
- Fashion accessories: Used for cutting high-quality materials for bags, wallets, belts, and luxury leather goods.
- Custom interiors: Enables quick adaptation for made-to-order pieces in boutique furniture studios.
Pro tip: Multi-layer cutting capability increases productivity while maintaining edge precision on thick or laminated fabrics.
Automotive Interior Manufacturing
Lectra’s cutting systems are trusted by leading automotive suppliers for producing interior textile components with exacting standards.
- Seat covers and trims: Precision cutting of synthetic and natural fabrics, including leather and Alcantara®, for driver and passenger seating.
- Door panels and headliners: Accurate shaping of multi-material composites used in cabin interiors.
- Customization options: Supports batch variation for different vehicle trims, colors, and regional specifications.
- Quality assurance: Integrated vision systems detect flaws and adjust cutting paths in real time.
Critical advantage: Compliance with automotive safety and durability standards (e.g., flame resistance, abrasion testing).
Marine & Aeronautical Interiors
The demanding environments of marine and aviation sectors require materials that are both durable and precisely fabricated—Lectra excels in these high-stakes applications.
- Yacht and ship interiors: Cuts marine-grade fabrics for seating, cushions, sun covers, curtains, and sleeping compartments with resistance to moisture and UV degradation.
- Aircraft cabin components: Produces seat covers, dividers, window shades, and crew uniforms to strict aerospace specifications.
- Regulatory compliance: Ensures materials meet flammability, toxicity, and emission standards (e.g., FAR 25.853, IMO FTP Code).
- Weight optimization: Minimizes excess material usage, contributing to fuel efficiency in aircraft and vessels.
Technical note: Advanced vacuum tables securely hold lightweight or slippery technical textiles during cutting.
Medical & Healthcare Textiles
In healthcare settings, hygiene, comfort, and consistency are paramount—Lectra supports the production of medical-grade textile products with high repeatability.
- Patient garments: Efficiently cuts gowns, scrubs, surgical robes, and isolation wear from antimicrobial or disposable fabrics.
- Hospital bedding: Processes sheets, pillowcases, and blankets in bulk with clean, fray-resistant edges.
- Orthopedic and support textiles: Cuts compression garments, braces, and adaptive clothing with precise dimensional accuracy.
- Infection control: Easy-to-clean cutting beds and non-contact blade technologies reduce contamination risks.
Smart choice: Ideal for facilities requiring traceability and batch documentation for quality audits.
Technical & Industrial Textiles
Beyond traditional fashion and interiors, Lectra machines serve niche markets requiring specialized fabric handling and performance materials.
- Safety gear: Cuts materials for protective clothing used in firefighting, military, and industrial applications.
- Geotextiles and filtration fabrics: Processes durable synthetic meshes and nonwovens with consistent dimensional stability.
- Advertising and displays: Used for banners, pop-up exhibits, and tensioned fabric structures.
- Sporting goods: Applies to sails, tents, backpacks, and performance apparel requiring high-tensile strength fabrics.
Innovation driver: Compatible with smart textiles and conductive fabrics used in wearable technology.
Professional Insight: The true value of the Lectra automatic fabric cutting machine lies not just in automation, but in its ecosystem—integrating intelligent software, predictive maintenance, and data analytics to optimize the entire cutting process. For businesses scaling production or enhancing quality control, investing in Lectra technology offers a measurable return through reduced waste, improved labor efficiency, and enhanced product consistency.
| Industry | Primary Applications | Material Types | Key Benefits |
|---|---|---|---|
| Apparel | Dresses, shirts, jackets, skirts | Cotton, wool, silk, synthetics | High-speed nesting, low waste, design flexibility |
| Upholstery | Sofas, chairs, curtains, bags | Faux leather, jacquard, canvas, velvet | Precision edge cutting, multi-layer capability |
| Automotive | Seats, door panels, headliners | Leather, Alcantara®, technical fabrics | Regulatory compliance, defect detection |
| Marine/Aeronautical | Interior trims, covers, uniforms | UV-resistant, flame-retardant fabrics | Weight savings, safety standards |
| Medical | Gowns, bedding, surgical wear | Antimicrobial, disposable nonwovens | Hygienic operation, batch traceability |
| Technical Textiles | Safety gear, banners, sails | Geotextiles, composites, smart fabrics | Durability, precision for complex shapes |
Additional Advantages of Lectra Cutting Systems
- Software Integration: Fully compatible with Lectra’s Modaris® and Diamino™ pattern-making and nesting software for end-to-end digital workflow.
- IoT Connectivity: Real-time monitoring and remote diagnostics enhance uptime and predictive maintenance.
- Energy Efficiency: Designed with eco-modes and low power consumption for sustainable manufacturing.
- User-Friendly Interface: Intuitive touchscreen controls reduce training time and operator errors.
- Scalability: Modular designs allow integration into existing lines or expansion for growing operations.
How to Choose a Lectra Automatic Fabric Cutting Machine
Selecting the right automatic fabric cutting machine is a critical investment for textile, apparel, and upholstery businesses. Lectra is a global leader in industrial cutting solutions, known for precision, innovation, and reliability. Choosing the right model requires careful evaluation of your production needs, technical capabilities, and long-term operational goals. This comprehensive guide walks you through the key factors to consider when selecting a Lectra fabric cutting machine that aligns with your business objectives.
Important Note: While Lectra machines are renowned for their advanced technology and performance, proper selection is essential to maximize return on investment. Misalignment between machine capabilities and production demands can lead to inefficiencies, increased downtime, or underutilization of features.
Key Factors to Consider When Choosing a Lectra Fabric Cutting Machine
- Assessing Business Needs and Production Requirements
- Identify the types of fabrics you regularly cut—such as knits, wovens, technical textiles, leather, or composites—as different Lectra models are optimized for specific material characteristics.
- Evaluate fabric thickness and layer count requirements. High-volume production of multi-layered materials may require a machine with greater cutting force and vacuum hold-down capacity.
- Determine your daily or weekly cutting volume to ensure the machine’s throughput matches your production schedule.
- Consider the complexity of your cutting patterns—fine details, intricate shapes, and small components require higher precision and advanced blade control.
- Assess whether you need nesting software integration (like Lectra’s Modaris® or Fashion PLM) for optimized material utilization and seamless workflow from design to cutting.
- Cutting Quality and Precision
- Lectra machines are engineered for micron-level accuracy. Confirm the machine’s cutting tolerance (typically ±0.1 mm to ±0.3 mm) meets your quality standards.
- Look for features such as adaptive blade control, automatic blade sharpening, and dynamic pressure adjustment, which maintain consistent cut quality across varying fabric types.
- Verify the machine’s ability to handle delicate fabrics without fraying or distortion, especially important for high-end fashion or technical textiles.
- Consider laser-guided alignment systems and high-resolution cameras for precise pattern registration and edge detection.
- Ease of Operation and User Interface
- Choose a model with an intuitive touchscreen interface and software that simplifies job setup, material loading, and process monitoring.
- Lectra’s intuitive software platforms (e.g., Diamino™) offer drag-and-drop functionality, real-time feedback, and visual diagnostics to reduce operator error.
- Ensure the system supports quick changeovers between jobs and materials, minimizing downtime.
- Look for multilingual support and built-in training modules to streamline employee onboarding and reduce training time.
- Durability, Reliability, and Build Quality
- Lectra machines are constructed with industrial-grade components designed for 24/7 operation in demanding environments.
- Check the machine’s frame rigidity, linear guide systems, and motor durability to ensure long-term performance stability.
- Review mean time between failures (MTBF) data and customer testimonials to assess reliability across similar production settings.
- Consider models with predictive maintenance alerts and self-diagnostic tools to prevent unexpected breakdowns.
- After-Sales Support and Maintenance Services
- Lectra offers global technical support, on-site service engineers, and remote diagnostics to minimize machine downtime.
- Verify service coverage in your region and response times for emergency repairs.
- Inquire about maintenance contracts, software updates, and availability of spare parts—especially critical components like blades, belts, and vacuum pumps.
- Ensure access to certified training programs for operators and maintenance personnel to maximize machine uptime and efficiency.
- Budget and Total Cost of Ownership
- Establish a clear budget that includes not only the purchase price but also installation, training, and initial spare parts.
- Compare models based on features, cutting speed, automation level, and energy efficiency to determine the best value.
- Analyze long-term operating costs, including power consumption, blade replacement frequency, and maintenance requirements.
- Consider the return on investment (ROI) through improved material yield, reduced labor costs, and faster production cycles—Lectra machines often pay for themselves within 1–3 years in high-volume environments.
| Selection Factor | Key Questions to Ask | Lectra-Specific Advantages | Recommended Models |
|---|---|---|---|
| Production Volume | How many layers and square meters do you cut per day? | High-speed cutting with continuous operation capability | Lectra Vector, Lectra 700 Series |
| Fabric Type | Do you cut delicate, stretchy, or multi-layered materials? | Adaptive blade control and vacuum optimization for diverse fabrics | Lectra Shape, Lectra 500 Series |
| Precision Needs | Are fine details and tight tolerances required? | Laser alignment, high-resolution cameras, and sub-millimeter accuracy | Lectra Diamino, Vector XT |
| Automation Level | Do you need integration with PLM or ERP systems? | Seamless integration with Modaris, Fashion PLM, and Diamino software | Lectra Integrated Workstations |
| Support & Maintenance | Is 24/7 technical support available in your region? | Global service network with remote diagnostics and predictive maintenance | All Lectra Models (Service-dependent) |
Expert Tip: Schedule a live demonstration or factory trial with Lectra representatives. Seeing the machine in action with your actual fabrics and patterns provides invaluable insight into its real-world performance and compatibility with your workflow.
Additional Considerations for Optimal Selection
- Future-Proofing: Choose a machine that supports software upgrades and additional modules (e.g., automatic loading, RFID tracking) to accommodate business growth.
- Workspace Requirements: Ensure adequate floor space, ventilation, and power supply (3-phase recommended for industrial models).
- Environmental Impact: Evaluate energy consumption and noise levels, especially if operating in shared or eco-conscious facilities.
- Integration with Existing Systems: Confirm compatibility with your current CAD, PLM, or ERP platforms for seamless data transfer.
- Financing Options: Inquire about leasing, trade-in programs, or phased payment plans offered by Lectra or authorized dealers.
Selecting the right Lectra automatic fabric cutting machine is more than a technical decision—it's a strategic move toward greater efficiency, consistency, and competitiveness. By carefully evaluating your operational needs against the advanced capabilities of Lectra’s cutting systems, you can make an informed choice that enhances productivity and supports long-term business success. When in doubt, consult with a Lectra solutions specialist to tailor a system that fits your exact requirements.
Frequently Asked Questions About Lectra Automatic Fabric Cutting Machines
Lectra cutting machines are advanced industrial systems designed to automate and optimize the fabric-cutting process in manufacturing environments. These high-precision machines are primarily used in industries where accuracy, efficiency, and repeatability are critical.
- Apparel Industry: Used for cutting garments, including clothing for fashion, sportswear, and workwear, ensuring consistent sizing and minimal fabric waste.
- Automotive Sector: Employed to cut interior components such as seat covers, dashboards, door panels, and headliners with exacting tolerances.
- Upholstery & Furniture: Ideal for cutting large fabric pieces for sofas, chairs, and mattresses, accommodating a wide range of materials from leather to synthetic textiles.
- Aeronautics & Transportation: Applied in the production of cabin interiors, including seats and wall panels, where safety, weight, and material consistency are paramount.
Lectra’s solutions integrate seamlessly with digital design workflows, enabling manufacturers to transition from pattern creation to physical cutting with minimal manual intervention.
An automatic fabric cutting machine operates through a combination of advanced software, computer-controlled mechanics, and precision engineering to deliver fast, accurate cuts. The process typically follows these key stages:
- Fabric Spreading: Large rolls of fabric are automatically or manually spread across a cutting table in multiple layers, ensuring even tension and alignment.
- Digital Marker Application: Using specialized CAD/CAM software, digital markers (cutting patterns) are applied to the fabric layout. These markers optimize material usage and are tailored to production requirements.
- Cutting Execution: The machine uses either a vertical oscillating blade, a tangential knife, or a laser beam—depending on the model and material—to cut the fabric precisely along the programmed paths.
- Post-Cutting Handling: Some systems include automated part removal, labeling, or stacking, further reducing labor needs and improving workflow efficiency.
Lectra machines often incorporate vision systems that detect fabric flaws or markers, adjusting the cut in real time to maintain quality and reduce waste.
Integrating an automatic fabric cutting machine into your production line offers numerous operational and financial advantages:
- Increased Efficiency: Automation reduces cycle times significantly compared to manual cutting, enabling faster turnaround and higher throughput.
- Superior Accuracy: Computer-guided cutting ensures precise replication of patterns down to the millimeter, minimizing human error.
- Material Optimization: Advanced nesting algorithms maximize fabric utilization, reducing waste by up to 15% compared to traditional methods.
- Consistent Quality: Every cut is uniform, which is essential for maintaining brand standards in mass production.
- Reduced Labor Costs: Automation decreases reliance on skilled manual cutters and reduces physical strain on workers.
- Enhanced Safety: Enclosed cutting zones and automated processes minimize operator exposure to sharp tools and repetitive motion injuries.
- Scalability: Systems can be integrated into larger digital manufacturing ecosystems, supporting growth and customization demands.
These benefits make automatic cutting machines a smart investment for businesses aiming to improve competitiveness and sustainability.
Lectra offers a comprehensive range of automated fabric cutting solutions tailored to different materials, volumes, and industry needs. The main types include:
| Type of Machine | How It Works | Best For | Key Features |
|---|---|---|---|
| Laser Cutting Machines | Uses a focused laser beam to vaporize or melt fabric along the cut path. | Delicate fabrics, intricate designs, synthetic materials. | High precision, sealed edges (reduces fraying), no blade wear. |
| Blade Cutting Machines | Employs a vertical oscillating or tangential blade to slice through stacked fabric layers. | Woven and knitted textiles, leather, technical fabrics. | Versatile, cost-effective, excellent for high-volume production. |
| Spreading Machines | Automatically lays out fabric in precise layers on the cutting bed. | Preparation for cutting; essential for multi-layer efficiency. | Ensures consistent tension, reduces wrinkles, integrates with cutting systems. |
| Computer-Controlled Fabric Cutters | Combines CAD software with motorized cutting heads for guided operation. | All major industries requiring digital workflow integration. | Real-time adjustments, material tracking, high-speed processing. |
| Automated Cutting & Marking Systems | Integrates cutting with labeling, sorting, and data management functions. | Large-scale manufacturers needing end-to-end automation. | Barcoding, RFID tagging, seamless ERP/MES integration. |
Lectra’s portfolio includes models like the Vector, Altia, and Diamino series, each engineered for specific applications and production scales. Whether you need a compact solution for prototyping or a fully integrated production line, Lectra provides scalable, future-ready technology.
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