AI-Powered Video Search: Comprehensive Analytics for Safety & Security Across Industries
ai-powered-video-search-comprehensive-analytics-for-safety-security-across-industries
TO175156
Industries such as retail, transportation, worksites, and law enforcement increasingly demand robust safety and security solutions. Organizations managing multiple CCTV systems and vast video datasets need advanced video analytics for early threat detection, real-time monitoring, and informed decision-making. Cost-effective solutions that ensure data integrity and regulatory compliance are crucial.Without advanced analytics, organizations face challenges like slow manual reviews, limited real-time alerts, and delayed insights, which hinder timely incident detection and response.The intelligent video deep search and analytics solution addresses these issues by leveraging AI technologies such as deep learning, computer vision, and NLP. It enables real-time processing, quick text-based searches, and accurate detection of objects and behaviors. The code-free alert system allows for rapid deployment without technical expertise, enhancing surveillance capabilities, operational efficiency, and overall security.
Infocomm
Sustainable Bio-based Material from Agricultural Side Streams
sustainable-bio-based-material-from-agricultural-side-streams
TO175294
Agricultural, organic and fruit-based sidestreams constitute approximately 85% of the total industrial food wastage. In most cases, these substantial side-streams are converted into pelletizsed bran for animal feeds while those not suited for consumption are disposed of through landfilling or incineration. These practices contribute significantly to carbon emissions, releasing toxins, greenhouse gases, and pollutants that are harmful to the local air quality.The technology on offer provides opportunities to repurpose agricultural and primary production sidestreams, as well as by-products from manufacturing and fruit-based processing through mechanical methods. The side streams are pre-treated through drying, grinding and cutting into manageable sizes prior to transforming them into a source of functional compounds to create green value-added products such as eco-friendly remedies, growing media, bio-composite materials, or sustainable packaging. Made with natural bio-compatible and green ingredients, it can be applied to various types of side streams and can be broken down for reuse as feedstock when it no longer meets its application requirement.This technology provider is actively seeking R&D co-development and IP licensing to companies looking to develop new products/applications using bio-composite materials.
Materials, Waste Management & Recycling, Sustainability
Non-Invasive Wearable for Stress Tracking via Pulse Shape Feature
non-invasive-wearable-for-stress-tracking-via-pulse-shape-variability
TO175340
This non-invasive wearable integrates advanced photoplethysmography (PPG) sensing with a proprietary Pulse Shape Variability (PSV) algorithm to deliver real-time insights into stress levels linked to blood pressure fluctuations. Unlike conventional wearables that rely solely on heart rate or HRV, this technology analyzes the full morphology of the pulse waveform, capturing dynamic changes in amplitude, rise time, and contour that reflect vascular tone modulation caused by psychological stress.The result is a highly responsive and motion-tolerant stress detection platform that functions effectively in real-world conditions. By transforming microvascular signals into actionable insights, the solution enables proactive stress awareness, personalized wellness coaching, and context-aware emotional feedback, unlocking new opportunities in digital health, telemedicine, fitness, and mental wellness ecosystems.The technology owner is primarily seeking industry adopters and solution partners including medical institutions, device manufacturers, software developers, and fitness centers, who can integrate the technology into real-world applications with interest in deploying the system for use cases such as mental wellness, stress monitoring, fitness optimization, and remote healthcare. They also welcome collaboration with subject-matter experts to jointly enhance the algorithm and explore new features or application areas.
Lixiviant for High Extraction of Gold from Gold-Coated Solid Waste
lixiviant-for-high-extraction-of-gold-from-gold-coated-solid-waste
TO175307
The rapid growth of electronic waste (e-waste), driven by industrialization and digital transformation, has increased the demand for efficient metal recovery solutions. Current gold extraction methods from e-waste and mined ores rely on highly toxic cyanide-based lixiviants or corrosive aqua regia, posing significant risks to workers and the environment. These methods also suffer from low selectivity, resulting in the co-leaching of toxic heavy metals such as copper, nickel, and tin.To address these challenges, the technology provider has developed and patented a novel lixiviant that is cost-effective, highly selective, safer, and efficient. The proprietary solution achieves gold extraction rates of up to 96% with gold concentrations of ≥3,000 ppm, while using low levels of less toxic cyanide substitutes (<1,900 ppm). Operating optimally at 60°C under alkaline conditions, it minimizes hazardous waste generation and improves workplace safety. The technology provider is actively seeking industry partners to test-bed the lixiviant and is open to license the technology to interested partners.
Chemicals, Waste Management & Recycling
Fast-Curing and Ready-to-Use Glass Fibre Reinforced Polymer (GFRP)
fast-curing-and-ready-to-use-glass-fibre-reinforced-polymer-gfrp-2
TO174821
Fibre reinforced polymer (FRP) is widely used for blast protection and structural reinforcement of concrete elements in buildings and infrastructure. However, conventional FRP solutions have limitations due to labour-intensive applications such as on-site preparation and resin mixing, inconsistent quality, long curing time, and low productivity.The technology is a glass fibre reinforced polymer (GFRP) roll pre-saturated with a tacky resin system that can be easily applied to structural elements like “double-sided tape”. The resin-infused GFRP can fully cure in natural light within a few hours, strengthening the structure with only a marginal increase in wall thickness. A fire-retarding version of GFRP is also available. The GFRP solution is fast and efficient with minimal on-site tools and less dependent on workmanship skills.The technology is available for IP licensing and collaboration with industrial partners who are interested in adopting the fast-curing GFRP technology in their products and applications.
Materials, Chemicals, Sustainability
Solution to Repair Concrete Cracks, Mitigate Rebar Corrosion and Concrete Carbonation
solution-to-repair-concrete-cracks-mitigate-rebar-corrosion-and-concrete-carbonation
TO175410
Concrete deterioration caused by cracking, carbonation, and rebar corrosion represents a multi-billion-dollar global challenge. The global concrete repair market is valued at approximately USD 20 billion. Current methods are often labour-intensive, disruptive, or temporary, creating a strong demand for durable, cost-effective, and sustainable repair solutions. This innovation addresses these needs with a two-part treatment system that restores durability and prevents further structural damage.The solution combines a water-based concrete sealer and a micro-cementitious crack injection sealant to protect and repair concrete structures. The sealer blocks water and corrosive agents from entering concrete and steel surfaces, reducing carbonation and rebar corrosion. The non-shrink sealant fills narrow cracks, strengthens damaged concrete, re-alkalises carbonated areas, and helps protect embedded steel reinforcement. Both products can be used separately or together for durable, long-lasting repair and protection. Unlike conventional repair methods such as polyurethane injections, the micro-cementitious sealant provides a durable, long-lasting repair without shrinkage. The two products can be applied independently or in combination, depending on the repair and protection requirements of the structure. This technology is available for R&D collaboration, IP licensing, and test-bedding with industrial partners in the construction and infrastructure sectors.
Materials, Chemicals
Intelligent Workplace AI for Industrial Safety & Operational Excellence
ai-solution-for-high-risk-industry-safety-management
TO175209
High-risk industrial sectors, represented by the chemical industries, are prone to experience production safety accidents. When these incidents occur, the consequences can be severe. Traditional risk management methods, often rely on manual processes, have limitations such as insufficient oversight, incomplete management, and ineffective control. These methods also struggle to provide timely pre-incident warnings, active interventions during incidents, and reliable post-incident evidence collection.To address these challenges, the technology combines AI, computer vision, IoT, big data, and intelligent video analytics to transform existing camera infrastructure into a comprehensive industrial risk detection and management platform. It enables real-time hazard identification, predictive alerts, 24/7 monitoring of personnel, equipment, environments, and operational procedures, while supporting both routine SOP compliance and temporary high-risk operations. Enhanced by a specialised industrial large language model, the solution delivers intelligent decision support to improve safety, operational efficiency, and risk management in high-risk industries.The technology owner seeks collaboration with industrial partners interested in artificial intelligence, such as companies in chemical and energy sectors, as well as hardware providers, such as manufacturers of surveillance cameras, to co-develop and implement this technology to meet specific needs.
Infocomm
Next-Gen Optical Films for Passive Radiative Cooling
next-gen-energy-free-cooling-passive-radiative-cooling-films
TO937671
As global temperatures continue to rise, the demand for cooling across buildings, infrastructure, and transportation is increasing significantly, driving higher energy consumption and carbon emissions. In response, governments and industries are accelerating the adoption of energy-efficient and low-carbon solutions.To address these challenges, this technology introduces an advanced passive daytime radiative cooling (PDRC) solution in the form of high-performance optical films. Through spectral engineering, the material reflects the majority of incoming solar radiation while simultaneously emitting heat through the 8–13 μm atmospheric window into outer space, enabling net-zero energy cooling with sub-ambient performance. Unlike conventional cooling methods, this solution delivers rapid, energy-free surface cooling, achieving temperature reductions of up to 20–40°C under direct sunlight, with cooling power of approximately 100–150 W/m². Current product offerings include transparent films for window applications and non-transparent reflective films for rooftops and other surfaces. With a proven track record in Greater China and Hong Kong, the technology owner is seeking partners in Singapore for co-development and pilot deployment in hot and humid tropical environments. Ideal partners include building developers, construction companies, property owners, façade and roofing specialists, as well as warehouse operators. Companies in energy storage, cold-chain logistics, and energy infrastructure (e.g., solar PV operators) are also welcomed for performance validation and potential scale-up.
Chemicals & Materials
Energy-Saving Passive Ceiling Panels for Enhanced Indoor Comfort
energy-saving-passive-ceiling-panels-for-enhanced-indoor-comfort
TO655294
The innovative passive ceiling panels enhance indoor comfort by optimising airflow and reducing cooling energy consumption through aerodynamic design and integrated thermal layers. Ideal for commercial and institutional spaces, this retrofit-friendly solution delivers significant energy savings, improved occupant comfort, and reduced system costs, making it a compelling choice for sustainable building upgrades.
AIoT-Driven Predictive Maintenance for Critical Facilities & Infrastructures
predictive-maintenance-technology-for-critical-facilities-infrastructures
TO175442
Critical facilities and infrastructures face growing risks from equipment failures, costly downtime, and safety hazards, while traditional inspections often lack the speed and accuracy required to address these challenges. This innovation combines physical non-destructive testing (NDT) with AIoT-driven predictive analytics to deliver continuous, real-time monitoring that enhances safety, efficiency, and resilience.Engineered with business continuity and rapid incident response at its core, the system detects early anomalies, prioritizes risks, and enables proactive maintenance to reduce disruptions and ensure compliance. Its key advantage lies in a proprietary dataset of over 10 million hours of real-world operational data from HVAC, motor, and pump systems in metropolitan environments, enriched with expert domain labelling. This unique resource powers machine learning models with superior accuracy, outperforming conventional predictive tools that lack real-world grounding.The platform is also the first industrial transformer-based multimodal AI system, integrating diverse sensing modalities with unmatched precision. Its scalable, modular design supports multi-sensing, multi-modal applications across diverse sectors. By shifting from reactive or scheduled maintenance to predictive, condition-based asset management, the solution bridges gaps left by inspections and supervisory control and data acquisition (SCADA) systems, resulting in safer operations, optimized resource use, and measurable ROI.The technology owner is seeking collaboration with industrial partners, including property owners, operators of power plants and utilities, transportation providers, government agencies, and industrial facility managers, who aim to minimize downtime, extend asset lifecycles, and strengthen resilience against failures.
Infocomm
The Future Of Food Binders: Konjac
the-future-of-food-binders-konjac
TO175330
Currently flour, gelatin, butter, and sugar are commonly employed as binding agents in various culinary applications, such as nut bars, waffles, and fried food batters. However, this conventional practice raises significant concerns regarding health implications (gluten allergy, lactose intolerant) and sustainability.This technology is a novel Konjac-based alternative to supplant conventional binding agents, which is diabetic-friendly, gluten-free and has a low calorie content. This healthy and powerful dietary binder allows the user to design various shapes and textures of foods and can be used in recipes for consumers with dietary restrictions.
Personal Care, Foods
Digital Operation and Maintenance Management for Smart Buildings
digital-operation-and-maintenance-management-solution-for-smart-buildings
TO175140
Digitalization is transforming the construction industry by addressing high energy use, high costs, and low operational efficiency. Traditional operations and maintenance (O&M) rely on manual processes and experience, which are no longer sufficient for smart building demands. As a result, smart O&M is becoming essential to improve efficiency, reduce costs, and enhance service quality. This technology offers a full-chain AIoT solution integrating hardware, software, algorithms, and platform services for comprehensive building O&M applications.This solution covers all aspects of building O&M, from underlying hardware devices to upper-level software, intelligent algorithms, and platform services, offering a one-stop solution for various application scenarios. Covering the entire lifecycle of building electromechanical design, construction, operation, and maintenance, it facilitates the digital and intelligent transformation of both new and existing buildings. Additionally, comprehensive low-carbon and energy-saving solutions are provided to maximize the value of energy assets. Supported by digital twins and AI intelligent algorithms, and leveraging a digital platform, the technology owner delivers smart and green solutions to achieve efficient, low-cost, and low-carbon building operation and management.The technology owner seeks collaboration opportunities and partnerships with building portfolio owners and solution providers interested in digital upgrading, energy management, and O&M automation.
Energy, Green Building
Advanced Generative AI Platform for Digital Art Creation
advanced-generative-ai-platform-for-digital-art-creation
TO175334
This advanced AI art creation platform offers an efficient and accessible solution for generating high-quality digital artwork. Developed with the needs of artists, designers, and content creators in mind, the platform streamlines the creative process through key features such as text-to-image, image-to-image, text-to-video, and conditional image generation. By integrating state-of-the-art AI models with a user-friendly interface, it enables users to produce professional-grade visual content without the need for extensive technical expertise. This platform is ideally suited for collaboration with digital content creators, media and advertising agencies, and educational institutions seeking innovative and efficient content creation solutions.
Infocomm
Drug-Free Cold Plasma Device for Hair Regrowth and Scalp Health
drug-free-non-invasive-cold-plasma-device-for-early-stage-hair-loss-and-scalp-health
TO256575
This technology presents a pioneering drug-free, non-invasive cold plasma device designed to stimulate hair follicles and improve scalp health, addressing early-stage hair loss. Leveraging non-thermal plasma technology, it offers a safe, effective alternative to traditional hair regrowth solutions by stimulating scalp circulation, enhancing follicle activity, and supporting a healthier scalp environment. Ideal for home and clinical use, this technology promises enhanced hair density and reduced scalp inflammation, appealing to those seeking innovative wellness solutions. The technology owner is seeking for manufacturing partners with advanced production capabilities crucial for scaling up device production with strong regulatory expertise, cost optimization experiences and ISO 13485 infrastructures.
Personal Care
Eco-Friendly Mycelium Leather: Sustainable, Durable, Biodegradable
vegan-leather-sustainable-high-performance-material-from-agricultural-waste
TO175323
Introducing mycelium-based leather, an eco-friendly, biodegradable alternative derived from agricultural waste, offering the durability and aesthetics of traditional leather without the environmental impact. This sustainable material is ideal for fashion, automotive, and interior design industries, providing a high-performance, cruelty-free solution that reduces carbon emissions and eliminates toxic chemicals. Discover how this innovative leather can transform your products while aligning with ethical and environmental standards.
Waste Management & Recycling, Sustainability
End-to-End Digital Compliance for Regulated Products and Supply Chains
End to End Digital Compliance for Regulated Products and Supply Chains
TO636207
The technology is a cloud-based SaaS digital compliance platform that standardises and connects regulatory, quality, and supply chain workflows across regulated manufacturing ecosystems. It supports documentation management, batch and shipment tracking, quality workflow automation, and real-time operational monitoring to improve traceability, audit readiness, and release-to-market efficiency.Built on a data-driven architecture, the platform incorporates IoT, AI, Machine Learning (ML), and blockchain technologies to enhance decision-making, secure data exchange, and operational efficiency across complex multi-party supply chains. The solution is designed to comply with GAMP 5, EudraLex Annex 11, and FDA 21 CFR Part 11 requirements, and can be deployed modularly for scalable, cost-effective digitisation without disrupting existing validated systems.The technology is well suited for collaboration with regulated product manufacturers, laboratories, packaging and logistics providers, system integrators, and digital transformation partners seeking to strengthen compliance, supply chain coordination, and regulatory readiness.
Life Sciences, Logistics, Foods, Healthcare, Manufacturing
Robotic Perception Made Easy with Visual Locational Data
robotic-perception-made-easy-with-visual-locational-data
TO175182
Due to the rising demand for industrial automation, autonomous robotic technology is gaining traction across various industries optimising processes and increasing operational efficiency. For these autonomous robots to execute their task with precision, they are required to be constantly aware of their surroundings to response adequately and quickly. Technologies developed from off-the-shelf components (e.g. camera-based perception) faces integration issues while industries with weak or no connectivity to the Global Navigation Satellite System (GNSS) are unable to utilise them.Developed by a Singapore-based startup, the proposed technology herein encompasses a modularised sensor hardware and edge AI software within a compact form factor, addressing fundamental 3D vision problems such as localisation positioning and obstacle detection. This solution can be easily customised, integrated and deployed in GPS-denied or GPD-obstructed areas while maintaining accuracy and reliability in navigation, tracking and monitoring of fleet, autonomous vehicles, etc.The technology solution has engaged with numerous proof-of-concept (POC) projects, including one notable engagement within the defence industry for a drone integration. The technology owner is looking for collaborative partners, such as manufacturers and system integrators within the automation space, who wishes to further enhance their robot’s perception capabilities.
Electronics, Infocomm
Digital Voltage Optimisation System for Electrical Energy Saving
digital-voltage-optimisation-system-for-electrical-energy-saving-cost-reduction
TO175412
Rising energy consumption and electricity costs pose significant challenges for businesses across all sectors, from light commercial operations to heavy industries. Moreover, sustainability has become a crucial component of corporate strategy. Electrical energy optimisation is not only about cost savings but also about resource conservation, power stability, equipment protection, and long-term sustainable development.The technology owner has developed a transformer-based voltage optimisation solution to reduce energy consumption and billing costs, optimise electrical power supply, extend equipment lifespan, and lower carbon emissions. This technology allows electrical equipment to run at an optimal voltage level while keeping the current within the optimum range for best efficiency, providing an immediate and practical way to reduce consumption and delivering energy savings. Industrial Internet of Things (IIoT) is integrated within the equipment to capture data and users have 24/7 access to a cloud-based platform to monitor, evaluate and make informed decisions on their power and energy usage as well as perform carbon reporting.The technology owner is keen to collaborate with industrial partners such as building management, property owners, industrial facility management in manufacturing sectors, equipment builders, energy consultants etc. The technology is also available for licensing to OEM partners to further co-develop by integrating into building management systems (BMS) and other solutions.
Energy, Electronics, Sustainability
Topology Optimization Platform for Thermal-Fluid Systems
topology-optimization-platform-for-thermal-fluid-systems
TO175400
Heat management has become a critical bottleneck in advanced industries such as electric vehicles, aerospace, data centers, and next-generation electronics. Traditional design processes rely heavily on expert intuition and repetitive simulation, requiring weeks to explore only a narrow design space. This results in high costs, limited performance improvements, and significant delays in bringing products to market. The presented technology introduces a thermal-fluid topology optimization engine that autonomously generates optimal structures for cooling and fluid management. Unlike conventional parameter studies, this approach explores the entire design space and discovers novel, high-performance solutions beyond human intuition. By integrating multi-fidelity modeling and high-accuracy simulations with lightweight surrogate models, the technology reduces design time from 20-30 days to just 3-5 days, while improving cooling efficiency by more than 30%. By combining breakthrough computational science with industrial applicability, this technology provides a next-generation design foundation for sectors where thermal performance is a decisive factor for competitiveness. Potential adoptors of this technology includes manufacturers facing urgent thermal challenges: automotive OEMs, aerospace suppliers, electronics and semiconductor companies, and data center operators. These industries demand shorter design cycles, reduced CO₂ emissions, and higher product reliability. The technology owner is seeking to collaborate with design and manufacturing companies from different industries looking to optimise heat transfer in thermal-fluid systems. The technology owner is also open to partnerships with Computer-Aided Engineering software providers who are interested to intergrate this technology into a platform.
Energy, Infocomm
Passive Radiative Cooling Film for Heat Reduction
passive-radiative-cooling-film-for-heat-reduction
TO175501
With global warming intensifying, cooling demands for buildings, equipment, vehicles, and outdoor infrastructure are rising rapidly. Conventional cooling solutions—such as air conditioning, mechanical ventilation, and electrically powered thermal management—are energy-intensive and contribute significantly to operational costs and greenhouse gas emissions. As countries seek to reduce energy consumption while maintaining thermal comfort and system reliability, passive radiative cooling solutions are gaining traction to lower operational energy use while improving thermal stability in heat-exposed environments.This technology is a film-based radiative cooling material with a reflective layer engineered for passive outdoor thermal management. Designed with high solar reflectivity and efficient thermal emission, the film incorporates silver within the reflective layer to maximise reflection of near-infrared solar radiation, thereby reducing heat absorption. At the same time, it enables effective radiation of infrared heat through the atmospheric window to the environment, allowing the applied surfaces to remain cooler than the surrounding air even under direct sunlight. The combined effect is a reduction of temperature rise on applied surfaces, lowering heat stress for buildings, machinery, and cargo spaces. The film is applicable across different sectors, including the built environment, industrial facilities, logistics and transportation, and public infrastructure.The technology owner is seeking co-development and pilot collaboration partners to conduct test-bedding and performance optimisation in tropical operating environments such as Singapore, supporting energy efficiency, heat resilience, and decarbonisation objectives across diverse sectors. Partners with film manufacturing capabilities are also welcomed for joint development and scale-up opportunities.
Digital Solar Asset Management and Optimisation Platform
digital-solar-asset-management-and-optimization-platform
TO175415
Conventional solar monitoring at the inverter level is reactive and labour-intensive, with issues like shading, soiling, mismatch, or degradation often detected only after energy losses occur. Troubleshooting requires manual checks, slowing response times and driving up costs, which limits the efficiency of solar asset management for large-scale operations.This technology provides a digital O&M control panel that delivers real-time, module-level visibility and control for advanced solar asset management. Coupling module-level power electronics with advanced software, it captures second-by-second data on voltage, current, temperature, and faults from each module. The platform integrates with existing inverter and SCADA systems, is inverter-agnostic, and can be retrofitted selectively where risks or losses are the highest.By detecting anomalies early, quantifying avoided losses, and prioritising interventions by ROI, the technology turns monitoring into proactive operations. Operators can execute remote module-level actions, such as isolating or restoring modules - before sending crews, reducing downtime and cost. Built-in safety features also meet rapid shutdown requirements and generate auditable compliance records to strengthen long-term energy performance.By closing the loop from sensing to analytics to remote action, this technology maximizes energy yield, accelerates response, and lowers the total cost of solar plant operations. In real-world deployments, the system has achieved up to a 50% reduction in management and O&M costs, and a 4–15% increase in overall power generation efficiency, while significantly strengthening fire-safety assurance through rapid isolation of faulty panels or hotspots for improved energy reliability.The technology owner is seeking collaborations with asset owners, O&M service providers, and EPCs/developers for test-bedding and licensing.
Energy, Sustainability
First Steps in Measuring Your Carbon Footprint
first-steps-in-measuring-your-carbon-footprint
TO175344
This technology solution empowers organisations to easily calculate and visualise their Scope 1 and Scope 2 carbon emissions by responding to a series of straightforward, user-friendly questions. It provides a powerful and accessible starting point for companies seeking to understand and manage their carbon footprint, enabling them to make informed decisions toward sustainability goals. By simplifying the often complex emissions tracking process, this solution supports businesses of all sizes in taking meaningful first steps on their journey towards environmental responsibility and climate action. This solution is accessible to all users looking to understand their carbon footprint.
Sustainability
Advancing Low-Carbon Biochar-Concrete for Building Sustainability
advancing-low-carbon-biochar-concrete-for-building-sustainability
TO175395
Concrete production is a major contributor to carbon emissions due to its high cement content and intensive resource use. In Singapore, the challenge is amplified by reliance on imported materials and increasing pressure to meet Green Mark and national decarbonisation targets, while maintaining cost and performance requirements.Biochar Concrete integrates biochar, a carbon-negative material derived from biomass into conventional concrete mixes. Biochar permanently sequesters carbon and enhances the concrete’s microstructure, while remaining compatible with existing batching and construction processes.By reducing embodied carbon and reliance on high-carbon cement, Biochar Concrete enables more resource-efficient and sustainable construction without compromising durability or performance. This scalable solution supports Singapore’s Green Building goals and advances the transition towards a low-carbon built environment.The technology is suitable for collaboration with concrete producers, precast manufacturers, construction and engineering firms, property developers, research institutions, biomass suppliers, and government for R&D collaboration, licensing, IP acquisition and test-bedding.
Sustainability, Materials, Environment & Clean Tech
Cost Effective Benchtop Powder-Free Metal Hybrid Manufacturing System
cost-effective-benchtop-powder-free-metal-hybrid-manufacturing-system
TO174983
The Cost Effective Benchtop Powder-Free Metal Hybrid Manufacturing System revolutionises low-volume production by integrating additive and subtractive techniques using sheets and foils, enhancing safety and cost-efficiency. Offering significant strength and reduced porosity, this technology is ideal for sectors like aerospace, healthcare, and automotive. Its ability to create complex, high-strength parts with minimal post-processing and reduced lead times makes it a compelling solution for custom manufacturing needs.
Manufacturing