Sunshine Skill’s HRSD Implementation (ServiceNow HR Service Delivery) course trains HR professionals on efficient and modern HR service delivery. Over 5 days, you’ll learn to automate repetitive HR workflows, implement a unified ServiceNow HRSD portal, and optimize case & knowledge management. You also gain skills in analytics to evaluate HR outcomes and improve employee experiences. This HRSD training empowers you to deliver faster, smarter HR services with scalable, intelligent ServiceNow automation. Visit: https://sunshineskill.com/courses/hr-service-delivery

ServiceNow announced its acquisition of Moveworks for $2.85 billion, combining ServiceNow’s workflow automation strength with Moveworks’ conversational AI and enterprise-search capabilities. The move accelerates ServiceNow’s push into agentic AI, embedding intelligent virtual assistants across IT, HR and customer-service workflows and reinforcing its role as a leading AI platform for business transformation. https://www.virtuxient.com/servicenows-2-85b-acquisition-of-moveworks

Integration in ServiceNow helps organizations connect multiple systems and applications to achieve seamless data exchange and workflow automation. It enhances collaboration, reduces manual efforts, and boosts overall efficiency across IT and business operations. Virtuxient provides expert solutions for different types of ServiceNow integrations, including API, web services, and third-party tools. By implementing the right integration strategy, businesses can optimize performance, improve visibility, and accelerate their digital transformation journey with ServiceNow. https://www.virtuxient.com/servicenow-integration-types-of-servicenow-integration

Model-Based Design tools enable engineers to design, simulate, and test complex control systems within a unified environment. By integrating modeling, simulation, and automatic code generation, these tools streamline development, improve accuracy, and reduce errors across industries like automotive, aerospace, and industrial automation. Website : https://www.servotechinc.com/embedded-software-development

With a press capacity of 800mm and a working area of 5,200×2,750mm, the line is engineered to handle large sheet formats efficiently and consistently. Its wide processing range — from 300 to 2,080mm in width and 300 to 4,300mm in length — makes it suitable for a variety of automotive applications. Capable of processing materials with thicknesses from 0.5 to 3.0mm, it easily adapts to both lightweight aluminum sheets and stronger steel grades, meeting the diverse needs of today’s vehicle manufacturing standards. https://sumikura.jp/blanking-lines-2.html Operating at a high speed of 65 strokes per minute (SPM), the Automotive Blanking Line ensures rapid production cycles while maintaining consistent precision and surface quality. The system’s advanced feeding and cutting mechanisms, driven by servo technology, deliver smooth and precise material movement. This minimizes edge burrs and deformation, reducing waste and rework during production. To enhance automation and efficiency, the line integrates a dual Magnetic & Vacuum stacking system, designed for high-speed, accurate stacking of blanks. This dual system guarantees perfect alignment and surface protection, especially when handling sensitive aluminum sheets. By minimizing manual intervention, it improves safety, reduces labor costs, and ensures stable, continuous operation even during long production runs. The entire system is controlled through an intelligent interface that enables real-time monitoring, rapid adjustments, and precise synchronization of each process stage. With built-in diagnostics and easy maintenance access, downtime is minimized while productivity remains consistently high. Engineered for long-term reliability, the Automotive Blanking Line is also optimized for energy efficiency and low operational costs. Its innovative design supports sustainable manufacturing goals while maximizing throughput and quality. Combining speed, flexibility, and accuracy, the Automotive Blanking Line is a crucial asset for manufacturers aiming to enhance their production capabilities. It offers the perfect balance between performance and efficiency, enabling automotive producers to meet global standards of quality and productivity in high-volume metal blanking operations.

Precision and Performance: The Importance of Stamping Parts in Modern Manufacturing Stamping parts play a crucial role in today’s manufacturing industry, serving as the backbone of countless products used in automotive, electronics, aerospace, and industrial applications. These components, produced through precision stamping processes, are essential for achieving consistency, durability, and cost efficiency in mass production. Benefits of Using Stamping Parts One of the primary advantages of stamping is its efficiency. Once a die is designed and set up, large quantities of identical parts can be produced quickly, ensuring consistent quality at a lower cost per unit. Stamping also supports a wide range of materials — including stainless steel, aluminum, brass, and copper — allowing manufacturers to tailor parts for specific applications. Applications Across Industries Automotive: Used for body panels, brackets, clips, and engine components. Electronics: Precision-stamped connectors and terminals ensure reliable electrical performance. Aerospace: Lightweight, high-strength stamped components meet strict safety and performance standards. Industrial Equipment: Structural and functional components benefit from the strength and precision of stamped parts. Advancements in Stamping Technology Modern stamping facilities leverage computer-aided design (CAD), computer numerical control (CNC) machinery, and progressive dies to enhance precision and reduce waste. Automation and robotics have further improved productivity, making stamping one of the most cost-effective methods for producing metal parts at scale. Stamping parts continue to be indispensable in modern manufacturing, combining precision engineering with high-speed production. As industries evolve toward greater efficiency and sustainability, advanced stamping technologies will remain vital in shaping the future of production and product design. https://www.acro-metal.com/stamping-parts/

In the fast-evolving world of precision machining, our vast offering of approximately 150,000 different boring tool systems—covering both driven and static tooling for the VDI, BMT, HSK, BT and PSC holder series—places you squarely ahead of the curve. Whether your machine is a turning centre, machining centre or grinding machine, with our portfolio you’re ready for the key themes shaping 2025 and beyond: smart machining, advanced-material readiness, and lean production ecosystems. https://www.xiray-tools.com/product/ Smart Machining & Connectivity One of the dominant trends right now is the adoption of tooling systems that do more than simply hold an insert: they become part of the data-chain. Cutting-tool market analysts highlight that sensor-embedded, IoT-capable tools and smart holders are increasingly important for real-time monitoring of vibration, cutting loads and tool-wear. Our driven and static boring systems are fully compatible with this shift: held in VDI, BMT, HSK, BT or PSC interfaces, our tooling can be adapted to incorporate monitoring modules or work within machines already equipped with connected-tool solutions. The result: better process control, fewer surprises, and tooling that supports the intelligent factory—not just the old-school lathe. Advanced Materials & Precision Demands Machining is no longer just about soft steel and modest bores. Industries from aerospace to medical to EV-powertrain are demanding lighter, stronger, harder materials and tighter tolerances. As the cutting-tool research indicates, next-gen coatings, nano-structures, and tools built for composites and high-temperature alloys are key. Our tooling families are engineered for exactly that: whether it’s a long-reach boring bar in a machining centre (HSK/BT style), or a precision static boring holder on a grinding machine (PSC interface), or a driven tooling solution for a live-spindle turning centre (BMT/VDI format), you can select the right interface and tooling style to match advanced-material operations. Interface flexibility means you’re not forced into a “one tool fits all” compromise. Lean Inventory & Sustainable Manufacturing Streamlining tooling inventories, reducing downtime and supporting sustainability are also major drivers. The cutting-tools market is forecast to grow strongly (CAGR ~6% or more) thanks to automation, smart tools and material complexity. With our catalogue covering driven and static tooling across all major holder standards, you gain modularity: the same holder family supports multiple machine platforms, multiple applications, reducing the number of “one-off” holders you must stock. The benefit: fewer tool changes, less idle inventory, easier logistics, and a tighter alignment with lean / green manufacturing goals. Why Choose Our Solution? Unrivalled breadth: ~150K systems means you’ll find the exact match for holder interface, machine type (turning, machining, grinding), driven vs static, and specialised application. Interface flexibility: Whether you use VDI, BMT, HSK, BT or PSC, we cover it—so you can standardise tooling strategy across your machine fleet. Trend-aligned readiness: From smart-tooling compatibility to advanced-material readiness to inventory efficiency, our offering is designed for what’s happening now. Special-application coverage: Deep-bore boring, long-reach operations, high-speed machining, grinding-machine setups—our driven/static range handles the niche jobs as well as the routine. In short: your boring-tool selection isn’t just about matching size and holder—it’s about aligning tooling strategy with the future of manufacturing. With our comprehensive, flexible catalogue of boring-tool systems built for today’s trends, you’re investing in tooling that’s ready for the next generation of production.

Capable of handling coil widths up to 2,500 mm and a coil weight of 35 tons, the NovaCut system provides the strength and flexibility required for heavy-duty industrial use. It processes a wide range of materials—including High Strength Steel (HSS), Cold Rolled Steel (CRS), Hot Rolled Steel (HRS), Stainless Steel (SS), and Aluminum—making it a versatile choice for automotive, construction, appliance, and precision metal service centers. https://sumikura.jp/slitting-lines/ Built for high-volume production, the NovaCut Slitting Line can slit coils into up to 50 individual strips in a single pass. Its powerful yet finely tuned machinery supports a thickness range of 0.2 to 9.0 mm, giving operators the ability to handle delicate thin sheets or robust heavy gauges with equal confidence. The system’s variable speed range of 0 to 300 meters per minute enables producers to balance output speed with the tight tolerances demanded by today’s competitive markets. At the heart of the NovaCut is an intelligent tension management system, featuring options for Felt Plate, Belt Bridle, or Roll tension units. These configurations maintain steady coil tension, ensuring smooth material flow and reducing the risk of surface damage, edge waviness, or dimensional inconsistencies. This precise control leads to cleaner cuts, improved strip flatness, and reduced scrap—helping manufacturers achieve better yields and higher profitability. The slitting section is powered by a Double Slitter with Turnstile configuration, designed for quick blade changes and rapid setup transitions. This feature minimizes downtime between production runs and allows operators to easily adapt to different materials, strip widths, or order specifications. Precision-engineered arbors and high-quality tooling guarantee burr-free edges and tight slit-width accuracy, even during extended high-speed operations. Beyond its robust mechanics, the NovaCut stands out for its energy-efficient drive systems and regenerative braking technology, which significantly reduce power consumption without compromising output. By lowering energy requirements and optimizing motor performance, the line supports eco-friendly production goals and helps manufacturers meet strict sustainability standards. A modern automation and control interface simplifies operation, enabling easy monitoring of speed, tension, and blade performance. Real-time diagnostics and predictive maintenance alerts help operators prevent unplanned downtime and keep production schedules on track. From lightweight aluminum for consumer goods to heavy-gauge hot-rolled steel for infrastructure, the NovaCut High-Performance Slitting Line delivers exceptional versatility, accuracy, and productivity. Its combination of eco-conscious engineering, high-speed capability, and precise material handling makes it an indispensable asset for manufacturers seeking to reduce waste, save energy, and stay ahead in today’s demanding coil processing market.

One of the CTL line’s defining strengths is its ability to process a wide range of materials, including HSS, CRS, HRS, stainless steel, and aluminum. This versatility makes it a single investment that serves multiple production needs, eliminating the inefficiencies of switching between specialized machines. Whether cutting thin aluminum sheets for lightweight applications or thick steel plates for structural components, the line performs with equal reliability. https://sumikura.jp/cut-to-length-lines/ The system accommodates coils up to 2,500 mm in width and 12,000 mm in sheet length, giving manufacturers the flexibility to handle both compact and oversized formats. Its 35-ton coil weight capacity ensures that large, heavy coils can be managed efficiently, reducing interruptions from coil changes and maximizing productivity in high-volume environments. Its thickness range of 0.2 mm to 9.0 mm further expands its application scope. Thin-gauge sheets used in electronics, appliances, and automotive interiors can be processed with exacting flatness and edge quality. At the same time, thicker plates required for shipbuilding, construction, and heavy machinery are cut cleanly and consistently. This wide range ensures the CTL line remains a core production asset across diverse manufacturing sectors. To support varying production requirements, the line offers a speed range of 0–80 meters per minute. Operators can adjust speeds for optimal results: high speeds for large-scale production where output volume is the priority, or slower speeds for projects that demand maximum precision. This flexibility allows the system to excel in both mass production and specialized work. Cutting options include both stop shear and rotary shear mechanisms. Stop shear delivers exact cuts for shorter lengths and heavier materials, ensuring burr-free edges and minimal material deformation. Rotary shear provides continuous, high-speed cutting ideal for long runs, improving throughput while maintaining accuracy. This dual-shear design ensures manufacturers always have the right tool for the job, regardless of material type or sheet size. Engineered for durability, the CTL line features a robust frame and heavy-duty components that ensure longevity under demanding operating conditions. Automation reduces operator workload and minimizes setup times, while a low-maintenance design keeps downtime to a minimum. Together, these qualities result in a system that not only performs reliably but also delivers a strong return on investment. The CTL line is an asset to industries such as automotive, aerospace, shipbuilding, construction, appliance production, and general fabrication. It empowers manufacturers to meet strict quality standards, increase efficiency, and reduce waste, all while maintaining consistent results across diverse projects. In conclusion, the Cut-to-Length Line offers manufacturers a balanced combination of strength, flexibility, and accuracy. Capable of handling a broad range of materials and coil sizes, it provides the precision and efficiency needed to stay competitive in today’s fast-paced manufacturing landscape.