storefront Products and Services For Sale
location_on
Search by location
| Actions | SKU | GTIN | Product Name | Image Link | Product Description | Production Date | Expiration Date |
|---|---|---|---|---|---|---|---|
| Order Fulfillment | Now accepting NEW order fulfillment clients in CALGARY: FAST onboarding - SECURE storage - Exceptional service. • e-Commerce or Wholesale order fulfillment • Inventory fully tracked utilizing our Warehouse Management System (WMS) • Integrations with major platforms (ShipStation, Shopify, Woo, Amazon, and more!) • Courier and transportation scheduling and management • Repacking/repackaging • Cross-docking • Labelling: barcode labelling, UPC code labels, to Walmart, Costco, and other retailers • Other value-added services, too, such as bundle-wrapping, shrink-wrapping and polybagging/heat sealing. Because of the nature of the product we work with, we have an incredibly clean warehouse that is monitored 24/7. 🎯Supporting your sales growth, one order at a time!🎯 | ||||||
| 30333 | Industrial/Construction Safety Station | Our Industrial Model Includes, All standard features plus: First Aid Kit & Emergency Response Equipment Side attachments Include: Emergency Burn Kit First Aid Kit Fire extinguisher Eye Wash Station Emergency Safety Shower Dimensions: Base Length 36" x Width 26" x Height 69" Plus 12" for shower Tank capacity: Fresh: 25 gallons Grey water: 50 gallons | 2024-02-17 | ||||
| 30332 | Nipiy Blue Sanitation Station | Our Gen 1 design for Nipiy machines feature: A top - mounted solar panel. Touchless, motion -activated, no drip soap dispensers & water taps. A refillable large paper towel roll holder. Large fresh water tanks (25 gallons) & grey water tanks (50 gallons). Free standing portable Design. Dimensions: Length 36"x Width 26" x Height 69" Tank capacity: Fresh: 25 gallons Grey water: 50 gallons | 2024-02-17 | ||||
| MG001 | 1234567890123 | Maple Harvest Granola |  | A delicious, crunchy blend of organic oats, almonds, and Canadian maple syrup, perfect for a wholesome breakfast or snack. | 2024-11-15 | 2025-05-15 | |
| Your Strategy, Automated |  | A software and technology company that provides a robust platform with a proven track record for marketplaces, eCommerce, CRM, and business process automation. Whether you are a new startup taking off, or optimizing your business model for growth, solutions by Wisebox will empower you to differentiate and win. | |||||
| Specialty Valve Solutions for Severe Service Applications | Canada’s trusted source for specialty valves and process equipment for critical and severe services since 1971. Our expertise lies in providing specialized valves and equipment designed for severe service conditions, supporting industries such as: oil & gas, chemical & petrochemical, mining & ore processing, power generation, district energy, fertilizer and pulp & paper. We offer an extensive range of valve solutions to meet your needs — from gate valves, globe valves, check valves, plug valves, needle valves, ball valves, knife gate valves, throttling valves, steam conditioning valves, desuperheaters/ attemperators, ball segment valves, pressure independent control valves, automatic pump recirculation valves, pinch valves, butterfly valves, air release valves, butterfly valves, check valves, sampling valves, diverter valves, bottom outlet valves, hygienic valves and more. Armour Valve can also supply custom valves to suit your specific application requirements. For a product consultation email us at [email protected] or visit our website at armourvalve.com. | ||||||
| High-Precision Vacuum Rubber Parts for Semiconductor Pick-and-Place Machines | Conceptual Design, Tool Development, and Manufacturing: In the semiconductor manufacturing industry, precision and reliability are essential, especially in automated processes like pick-and-place operations. Vacuum rubber parts are vital components in these machines, enabling precise handling and placement of delicate semiconductor chips and components. Designed specifically for semiconductor applications, these rubber parts provide the necessary vacuum seal, ensuring stability and control during the picking, transporting, and placement stages. Key Features of Our Vacuum Rubber Parts: - High-Precision Engineering - Durable Material Composition - Chemical and Temperature Resistance - Customizable Designs At FusionProTech, we specialize in conceptual design, tool development, and manufacturing of precision-made rubber parts for semiconductors, electronics, automation, and jigs and fixtures. By utilizing advanced materials, state-of-the-art technology, and stringent quality control processes, we deliver innovative solutions that not only meet but exceed customer expectations. With a commitment to precision and excellence, we provide reliable, high-quality rubber components that enhance the efficiency and performance of your projects. For more information on our vacuum rubber parts or to discuss custom solutions for your semiconductor equipment, contact us at [email protected] or visit our website at fusionprotech.com. | ||||||
| Precision Mold Design for Rubber Parts – FusionProTech Has You Covered! | At FusionProTech Inc., we bring expertise and innovation to every step of the process for creating high-quality molds for rubber parts. Whether you need conceptual CAD design or precision engineering, our team is here to deliver solutions that meet your exact specifications. Our Mold Creation Services Include: 📐 CAD Design: Tailored mechanical and electrical drafting for robust and accurate mold designs. 🔧 Precision Engineering: Molds crafted with unparalleled attention to detail to ensure perfect fits and finishes. ⚙️ Prototyping and Tooling: Transforming concepts into production-ready molds with cutting-edge technology. 💡 Custom Solutions: From simple designs to complex geometries, we adapt to your specific needs. Our expertise in mold-making enhances durability, efficiency, and cost-effectiveness for applications like automotive components, and industrial equipment. We’re dedicated to providing technical excellence and delivering molds that optimize performance in every project. Let Us Help You Ready to elevate your production with precision molds? Reach out to us today at [email protected] to discuss or get a personalized quote! | ||||||
| Boost Your Business with FusionProTech's Fiber Laser Marking Machines! | Take your manufacturing and customization processes to the next level with FusionProTech's cutting-edge fiber laser marking machines! Our machines deliver precision, speed, and reliability, making them the perfect solution for marking logos, serial numbers, barcodes, and more on various materials like metals, plastics, and ceramics. Whether you’re in the automotive, jewelry, or electronics industry, these machines ensure high-quality, durable markings that add value to your products. Don’t miss out on our specially curated selection of laser accessories designed to optimize your workflow and efficiency. From rotary attachments for cylindrical objects to safety enclosures for workplace security, we have everything you need to create a seamless laser marking setup. Visit our website today at https://lnkd.in/eCGNeiaZ and take advantage of our exclusive deals. Let’s partner to make your production smarter, faster, and more professional! | ||||||
| Desktop Fiber Laser Marking Machines | Compact in size yet powerful in performance, our Desktop Fiber Laser Marking Machines are designed to redefine precision and efficiency in marking. These machines offer unparalleled versatility, handling a wide range of materials including metals, plastics, ceramics, and more. Perfect for engraving barcodes, serial numbers, logos, and intricate designs, they deliver high-speed marking without compromising on quality. With a space-saving design and an easy-to-use interface, our desktop fiber laser machines are ideal for industries such as electronics, jewelry, medical devices, and small-scale manufacturing. Their affordability and reliability make them a top choice for businesses looking to upgrade their marking technology without exceeding their budget. Why Choose Our Desktop Fiber Laser Marking Machines? Compact Design: Fits seamlessly into any workspace. Precision and Accuracy: Ensures clean and sharp markings every time. Versatile Applications: Suitable for a variety of materials and industries. Low Maintenance: Cost-effective and built for long-term use. Empower your business with cutting-edge marking technology today! 📞 Contact us now to learn more: [email protected] 🌐 Visit our website for details: https://fusionprotech.com/blog/200w-fiber-laser-marking-machine | ||||||
| Copper Waveguides Coated with Silver | A copper waveguide coated with silver is a specialized type of electromagnetic waveguide, particularly effective for high-frequency applications that demand low energy losses and high efficiency. Why Use Copper and Silver? Copper Core: Offers high electrical conductivity, forming an excellent base for wave propagation. Provides structural strength and is easily fabricated into waveguide shapes like rectangles or circles. Silver Coating: Superior Conductivity: Silver has the highest electrical conductivity of any metal, reducing resistive losses, especially important at high frequencies. Skin Effect: At high frequencies, waves travel near the conductor's surface. The silver coating minimizes surface resistance, enhancing efficiency. Corrosion Resistance: Although silver can tarnish, it resists oxidation better than uncoated copper. Key Characteristics of Waveguides Mode of Operation: Waveguides support specific modes (patterns of wave propagation), like TE (Transverse Electric) and TM (Transverse Magnetic) modes. Cutoff Frequency: They operate above a minimum frequency called the cutoff frequency. Material and Geometry: The performance depends on the material (like copper or silver) and the waveguide's shape and size. Applications Telecommunications: Optical waveguides in fiber optics for high-speed data transfer. Microwave Systems: Copper-silver waveguides are used in radar, satellite communications, and broadcasting. High-Power Devices: Found in particle accelerators, plasma research, and industrial equipment. Medical and Scientific Fields: Used in MRI machines, laser systems, and precision laboratory devices. Maintenance Considerations Silver Tarnish: Though silver resists oxidation, it may tarnish (form silver sulfide), slightly increasing surface resistance. Regular cleaning or protective coatings can mitigate this. Uniform Coating: Consistent silver plating ensures efficient wave propagation without hotspots. Cost: The added benefits of silver coating increase the cost compared to plain copper waveguides. Let Us Help You At FusionProTech, we specialize in high-precision components like copper-silver waveguides, designed to meet the most demanding requirements. Whether you need custom solutions or expert guidance for your next project, our team is here to help. Contact us today to discuss your needs and discover how we can enhance your systems with precision-engineered waveguide solutions. 📧 Email: [email protected] 📞 Phone: 506-261-0170 🌐 Website: fusionprotech.com Let’s innovate together! | ||||||
| Stator Fin for Power Transmission Using Polyamide Polymer 3D Printing Solutions | Stator fins play a crucial role in power transmission systems, enhancing the efficiency of electric motors and generators by facilitating better airflow and heat dissipation. Utilizing polyamide polymer for 3D printing stator fins offers numerous advantages, including lightweight construction, excellent mechanical properties, and design versatility. Polyamide is particularly suited for various industrial applications, allowing for the rapid production of customized fins tailored to specific performance requirements. Material Properties of Polyamide Polymer: Polyamide polymer is an ideal choice for stator fin applications due to its: High Strength and Durability: Polyamide exhibits excellent mechanical strength, ensuring that stator fins can withstand operational stresses without compromising performance. Thermal Resistance: This material can maintain its properties under varying temperature conditions, making it suitable for high-performance power transmission applications. Chemical Resistance: Polyamide is resistant to various chemicals, ensuring that the fins maintain their integrity in demanding environments. Lightweight Composition: The low density of polyamide allows for the creation of lightweight structures that enhance overall system efficiency. Design Considerations: When designing stator fins with polyamide polymer, several key considerations are important: Aerodynamic Efficiency: The design must optimize airflow to maximize cooling efficiency while minimizing drag, enhancing the overall performance of the power transmission system. Size and Orientation: The dimensions and orientation of the fins must be carefully considered to achieve the desired airflow patterns and cooling effectiveness. Integrative Design: Stator fins should be designed to integrate seamlessly with the stator assembly, ensuring ease of installation and compatibility with existing systems. Manufacturability: The design must leverage the capabilities of 3D printing to create complex geometries while ensuring structural integrity. CAD Design & Drafting Services: FusionProTech offers comprehensive CAD design and drafting services for custom stator fins, ensuring precision and quality throughout the design process. Our services include: 3D Modeling: We create detailed 3D models of stator fins, incorporating all necessary features and specifications to optimize performance and fit. Computational Fluid Dynamics (CFD): Our team utilizes CFD tools to simulate airflow and heat dissipation, allowing us to refine designs for maximum efficiency. Technical Drafting: We produce precise technical drawings with detailed dimensions, tolerances, and material specifications, facilitating accurate manufacturing and quality assurance. Customized Solutions: We collaborate closely with clients to develop tailored designs that meet the specific needs of their power transmission applications. Metal 3D Printing Capabilities: In addition to polyamide solutions, FusionProTech offers metal 3D printing capabilities for stator fins that require enhanced performance characteristics. The advantages of metal 3D printing include: Superior Strength: Metal fins provide increased durability and strength compared to polymer alternatives, making them suitable for high-stress applications. Complex Geometries: Metal 3D printing allows for the creation of intricate designs that optimize thermal management and airflow, improving overall system performance. High Thermal Conductivity: Metal stator fins can effectively transfer heat, ensuring that power transmission systems operate efficiently even under heavy loads. At FusionProTech, we are dedicated to delivering innovative and high-quality solutions for power transmission systems. Our expertise in CAD design, drafting, and 3D printing—both in polyamide polymer and metal—enables us to produce customized stator fins that meet the specific needs of our clients. By combining advanced technology with precise engineering, we help our customers achieve reliable and efficient performance in their applications. For more information on our stator fin design and manufacturing services, contact us at [email protected] or visit our website at fusionprotech.com. | ||||||
| Pin Fin for Thermal Management Using AlSi10Mg Metal 3D Printing Solutions | Pin fins are essential components in thermal management systems, designed to enhance heat dissipation in various applications, including electronics, automotive, and aerospace industries. Utilizing AlSi10Mg, a lightweight aluminum alloy, for 3D printing pin fins offers several advantages, including high thermal conductivity, corrosion resistance, and design flexibility. The ability to produce complex geometries with precision through metal 3D printing allows for optimized thermal performance tailored to specific application requirements. Material Properties of AlSi10Mg: AlSi10Mg is particularly suited for pin fin applications due to its: Excellent Thermal Conductivity: This material efficiently conducts heat, making it ideal for applications requiring effective heat dissipation. Lightweight Nature: The low density of AlSi10Mg allows for the creation of lightweight structures that do not compromise performance. Corrosion Resistance: The alloy’s resistance to corrosion ensures durability and longevity in various environments, enhancing the reliability of thermal management systems. Good Printability: The material is well-suited for 3D printing, enabling the fabrication of intricate designs that traditional manufacturing methods may not achieve. Design Considerations: When designing pin fins with AlSi10Mg, several key considerations are essential to optimize thermal management: Geometry and Arrangement: The shape, size, and arrangement of pin fins are critical in maximizing surface area for heat transfer while minimizing airflow resistance. Spacing and Orientation: Proper spacing and orientation of pin fins can significantly impact airflow and heat dissipation efficiency, necessitating careful design to achieve optimal thermal performance. Manufacturability: The design must take into account the capabilities of 3D printing to ensure that complex geometries can be produced without compromising structural integrity. Integration with Existing Systems: The pin fins must be designed to integrate seamlessly with the thermal management systems of the applications they are intended for, including compatibility with heat sinks and other cooling components. CAD Design & Drafting Services: FusionProTech offers advanced CAD design and drafting services for custom pin fin structures, ensuring precision and quality throughout the design process. Our services include: 3D Modeling: We create detailed 3D models of pin fin structures, capturing all necessary features and specifications for optimal thermal performance. Thermal Simulation: Our team utilizes simulation tools to analyze heat transfer and airflow dynamics, allowing for optimization of the design for maximum efficiency. Technical Drafting: We generate precise technical drawings with detailed dimensions, tolerances, and material specifications, ensuring accurate manufacturing and quality control. Customized Solutions: We work closely with clients to develop tailored designs that meet the specific thermal management requirements of their applications. Metal 3D Printing Capabilities with AlSi10Mg: FusionProTech provides metal 3D printing solutions with AlSi10Mg that enhance the production of pin fin structures through various advantages, including: Precision Manufacturing: Metal 3D printing allows for the creation of intricate designs with exceptional accuracy, ensuring that pin fins meet specific performance criteria. Rapid Prototyping: The 3D printing process enables quick production of prototypes for testing, allowing for iterative design improvements and faster time to market. Material Efficiency: The additive manufacturing process minimizes waste by building components layer by layer, providing a sustainable manufacturing solution. Complex Geometries: Metal 3D printing enables the production of advanced pin fin structures that optimize thermal performance, which would be challenging to achieve using traditional methods. At FusionProTech, we are committed to delivering innovative solutions for thermal management systems. Our expertise in CAD design, drafting, and metal 3D printing with AlSi10Mg allows us to produce customized pin fin structures that meet the specific needs of our clients. By combining advanced technology with precise engineering, we help our customers achieve reliable and efficient thermal management in their applications. For more information on our pin fin design and manufacturing services, contact us at [email protected] or visit our website at fusionprotech.com. | ||||||
| PCB Housing for Electronics Using ABS Polymer 3D Printing Solutions | Printed Circuit Boards (PCBs) are integral components in electronic devices, and protecting them with appropriate housings is essential for ensuring their durability and functionality. Using ABS (Acrylonitrile Butadiene Styrene) polymer for 3D printing PCB housings offers significant advantages, including lightweight construction, robust impact resistance, and design flexibility. ABS is well-suited for various electronic applications, enabling the rapid production of customized housings that meet specific requirements while maintaining aesthetic appeal. Material Properties of ABS Polymer: ABS polymer is an ideal choice for PCB housing applications due to its: High Impact Resistance: ABS effectively protects sensitive electronic components from shocks and vibrations, ensuring the integrity of the PCB. Good Mechanical Strength: The material offers sufficient tensile strength, maintaining the structural integrity of the housing under various conditions. Thermal Stability: ABS withstands moderate temperature fluctuations, making it suitable for a range of electronic environments. Ease of Processing: The material is easy to work with, allowing for rapid prototyping and modifications, which accelerates the design process. Design Considerations: When designing PCB housings with ABS polymer, key design considerations include: Custom Fit and Accessibility: The housing must be tailored to fit the specific dimensions of the PCB and provide easy access to connectors and interfaces for assembly and maintenance. Ventilation and Cooling: Adequate ventilation features may be incorporated into the design to prevent overheating, particularly in high-power applications where heat generation is a concern. Cable Management: Thoughtful design can include routing paths for wires and cables, ensuring neat organization and ease of access for future adjustments. Aesthetic Design: The visual appeal of the housing is crucial in consumer electronics, necessitating careful attention to the design elements and finishes. CAD Design & Drafting Services: FusionProTech provides comprehensive CAD design and drafting services for custom PCB housings, ensuring precision and quality in every step of the process. Our services include: 3D Modeling: We create detailed 3D models of PCB housings, capturing all necessary features and specifications to ensure optimal performance and fit. Finite Element Analysis (FEA): Our team utilizes FEA tools to analyze the housing design, ensuring it can withstand operational stresses and thermal fluctuations while optimizing strength and durability. Technical Drafting: We generate precise technical drawings with detailed dimensions, tolerances, and material specifications, facilitating accurate manufacturing and quality control. Customization for Specific Applications: We collaborate with clients to develop tailored designs that meet the unique requirements of their PCB applications, enhancing both functionality and usability. Metal 3D Printing Capabilities: In addition to ABS polymer solutions, FusionProTech offers metal 3D printing capabilities for PCB housings that require enhanced performance. Advantages of metal 3D printing include: Increased Strength and Durability: Metal housings provide superior mechanical properties, making them suitable for high-stress environments where enhanced protection is needed. Complex Geometries: Metal 3D printing enables the creation of intricate designs that would be challenging to achieve with traditional manufacturing methods, allowing for innovative housing solutions. Heat Resistance: Metal housings can withstand higher temperatures, making them ideal for applications where thermal management is crucial. At FusionProTech, we are dedicated to providing innovative and high-quality solutions for the electronics industry. Our expertise in CAD design, drafting, and 3D printing—both in ABS polymer and metal—enables us to produce customized PCB housings that meet the specific needs of our clients. By combining advanced technology with precise engineering, we help our customers achieve reliable and efficient performance in their electronic devices. For more information on our PCB housing design and manufacturing services, contact us at [email protected] or visit our website at fusionprotech.com. | ||||||
| Motor Housing for Electronics Using ABS Polymer 3D Printing Solutions | Motor housings play a critical role in electronic devices by protecting internal components and providing structural integrity. Utilizing ABS (Acrylonitrile Butadiene Styrene) polymer for 3D printing motor housings offers numerous benefits, including lightweight construction, durability, and design flexibility. ABS is an ideal material for electronic applications due to its excellent mechanical properties and ease of processing, enabling the rapid production of customized housings that meet specific requirements. Material Properties of ABS Polymer: ABS polymer is well-suited for motor housing applications because of its: High Impact Resistance: ABS is capable of withstanding mechanical shocks, ensuring that the housing protects delicate electronic components. Good Tensile Strength: It offers sufficient strength to maintain the integrity of the housing during operation and installation. Thermal Stability: ABS maintains its shape and properties under moderate temperature variations, making it suitable for use in various electronic environments. Ease of Fabrication: The material can be easily processed and modified, allowing for rapid iterations in design and prototyping. Design Considerations: When designing motor housings with ABS polymer, several key considerations are taken into account: Fit and Alignment: The housing must be designed to accommodate the motor and any associated electronic components, ensuring a proper fit that minimizes movement and vibration. Cooling and Ventilation: Depending on the application, adequate ventilation or cooling features may be incorporated into the design to prevent overheating of the motor and other electronics. Cable Management: Thoughtful design can include provisions for cable routing and access points, facilitating installation and maintenance. Aesthetic Considerations: The design should also focus on aesthetics, especially in consumer electronics, where the visual appeal can be crucial for market success. CAD Design & Drafting Services: FusionProTech offers advanced CAD design and drafting services for custom motor housings, ensuring precision and quality throughout the process. Our services include: 3D Modeling: We create detailed 3D models of motor housings, incorporating all necessary features and specifications for optimal performance and fit. Finite Element Analysis (FEA): Using FEA tools, we analyze the housing design to ensure it can withstand operational stresses and thermal fluctuations, optimizing for strength and durability. Technical Drafting: We produce precise technical drawings with detailed measurements, tolerances, and material specifications, facilitating accurate manufacturing and quality control. Customization for Specific Applications: Our team collaborates with clients to develop custom motor housing designs tailored to their unique electronic applications. Metal 3D Printing Capabilities: While ABS polymer is ideal for many motor housing applications, FusionProTech also offers metal 3D printing capabilities for high-performance needs. Metal 3D printing provides advantages such as: Superior Strength and Durability: Metal housings can offer enhanced mechanical properties compared to polymer options, making them suitable for high-stress environments. Complex Geometries: Metal 3D printing allows for the creation of intricate designs that would be difficult to achieve with traditional manufacturing methods, enhancing functionality. Heat Resistance: Metal housings can withstand higher temperatures, making them suitable for demanding applications in various industries. At FusionProTech, we are committed to delivering innovative and high-quality solutions for electronic applications. Our expertise in CAD design, drafting, and 3D printing—both in ABS polymer and metal—enables us to provide customized motor housings that meet the specific needs of our clients. By combining advanced technology with precise engineering, we help our customers achieve reliable and efficient performance in their electronic devices. For more information on our motor housing design and manufacturing services, contact us at [email protected] or visit our website at fusionprotech.com. |