TAIWAN & CZECHIA

YJF CASTING CO., LTD.

• Booth H0517

YJF Casting, Taiwan‘s recognised leader in large-scale sand mold iron castings, arrives at TMTS 2026 with a presentation built around three interlocking pillars: Green Casting, Precision Craft, and Smart Manufacturing. The company holds a position of rare commercial significance in the global machine tool supply chain, serving as a preferred casting partner for half of the world‘s top ten machine tool manufacturers, with exports to Europe, the United States, and Japan accounting for 60 percent of its total business.

On the green side, YJF has moved well ahead of industry norms. The company was the first in its local industry to obtain ISO 14064-1 Carbon Footprint Verification and ISO 14067 Carbon Footprint Validation, achieved in 2022 and 2023 respectively. In practice, this commitment translates into active implementation of low-carbon lost-foam casting, paper-based sprue tubes, and eco-friendly adhesives, alongside optimised oxidation furnace scheduling that reduces energy consumption across the production cycle. The result is a casting product that meets international decarbonisation requirements without compromise on dimensional or material quality.

The Precision Craft dimension of YJF‘s TMTS 2026 presentation marks a strategic inflection point for the company. At the show, YJF officially announces its entry into the aerospace supply chain, presenting achievements from its high-end machining centres and a vertically integrated process that links casting directly to precision machining. This streamlined chain, combined with unmanned and smart manufacturing planning, now enables YJF to offer high-value-added services that extend as far as sub-assembly for client equipment, crossing a boundary that most foundries never attempt.

The Smart Manufacturing pillar is articulated through the Camellia AI Platform, developed by YJF‘s in-house IT team specifically in response to the Taiwanese government‘s „AI for All Industries“ policy. Designed with small and medium-sized enterprises in mind, the platform deploys open-source AI models onto local workstations, balancing information security with full computational autonomy. Its flagship module, Document Marine, addresses one of the most persistent operational pain points in industrial supply chains: the conversion and management of complex file formats exchanged between partners. YJF describes the experience as an „AI Drive-Thru“ for enterprise document handling, a practical and accessible entry point to AI-assisted operations that does not require large-scale infrastructure investment.

General Manager Huang Hsien-yi frames the company‘s direction with clarity: mastering the value of digital assets and green transformation, while maintaining close integration with critical supply chains, is the winning formula for Taiwan‘s casting industry to sustain its global leadership. YJF‘s TMTS 2026 presentation is the most concrete demonstration yet that a traditional foundry can serve simultaneously as a precision machinist, a green manufacturer, and a technology developer, redefining what vertical integration means in the casting sector.

CHMER(CHING HUNG MACHINERY & ELECTRIC INDUSTRIAL CO., LTD.)

• Booth G0206

CHMER, a global leader in Electrical Discharge Machining, approaches TMTS 2026 with a focus aligned to the show‘s „Ecosystem × Integrating the Future“ theme. The company‘s exhibit addresses high-end industrial demands across the electronics, medical, automotive, and ICT sectors, with a featured machine that encapsulates its current technological direction.

The centrepiece of CHMER‘s TMTS 2026 presence is the NV432L High-Precision Linear Motor Drive Wire-Cut EDM. The machine is built around CHMER‘s self-developed W5N Smart Controller, which represents a generational leap in processing capability: running on the GenOS Linux real-time operating system, the W5N delivers overall computational performance 15 times higher than the previous generation. Alongside this performance increase, the controller‘s physical volume has been reduced by 90 percent, a combination that directly addresses the dual imperatives of higher machine intelligence and smaller factory footprint. For CHMER, this achievement reflects the core competitive advantage the company has built through years of vertical hardware-software integration.

The NV432L‘s intelligent capabilities are anchored in a built-in Intelligent Power Management system, made possible by the controller‘s expanded processing capacity. The IPM system dynamically optimises power output according to the machining path and real-time discharge status, while simultaneously monitoring the health of critical machine components to reduce the risk of unplanned downtime. This active process management, rather than passive monitoring, is the distinction CHMER draws between conventional EDM operation and genuinely intelligent machining.

Energy efficiency is addressed through a complementary combination of the i8+ Energy-Saving Power System and an inverter cooling water circulation system, together achieving reductions in both power consumption and consumable waste. The result is a machine that raises performance while lowering operational cost and environmental impact, positioning it directly within the sustainable manufacturing framework that defines TMTS 2026.

Beyond the exhibition booth itself, CHMER has adopted an innovative dual-format participation for this edition of the show. In response to the „Front Shop, Back Factory“ model promoted by TMTS 2026, the company is hosting a simultaneous In-House Show at its Taichung headquarters. The in-house event features 12 machines running in operation, with automated production lines and IoT applications integrated throughout. Visitors who move from the exhibition hall to the factory gain a transition from observing individual smart machines to experiencing full-line automation solutions in a live production environment, providing a concrete and unfiltered view of what a machine tool ecosystem looks like in daily operation.

FORCE ONE MACHINERY CO., LTD.

• Booth G0206

Force One Machinery enters TMTS 2026 under the theme „Continuously Advancing Intelligent CNC Automation,“ presenting a set of interconnected machine and automation solutions designed to address the realities of high-mix, low-volume manufacturing. The company‘s exhibit is complemented by a simultaneous Open House at its factory, which sits in close proximity to the exhibition venue, allowing visitors to see additional equipment running under production conditions rather than in a show environment.

The highlight machine at Force One‘s TMTS 2026 booth is a high-precision twin-spindle Y-axis CNC lathe. The design combines a rigid structural architecture with advanced multi-tasking capabilities, targeting the dimensional stability and machining efficiency demands of complex turned components. The twin-spindle configuration allows simultaneous front and back machining, reducing cycle time and inter-operation handling while maintaining tight geometric tolerances across the finished part.

Alongside the machine itself, Force One introduces two newly developed automation components. The first is a newly patented SCARA robotic auto-loading system, engineered as a modular and independent unit that can be relocated and integrated with other machines as production requirements evolve. This flexibility is a deliberate design decision: rather than locking automation investment to a single machine, Force One has built a system that travels with the workflow. The second is a compact servo automatic door system, which together with the robotic loading system forms a complete intelligent machining cell solution. The linear-transfer mechanism at the core of the automation concept adopts a simplified structural approach to achieve maximum efficiency while keeping serviceability and cost-effectiveness at the forefront.

The system‘s intelligence extends beyond physical handling. Integration with off-machine measurement devices enables automatic dimensional compensation and intelligent monitoring through real-time data feedback, ensuring consistent machining quality across extended production runs without continuous operator intervention.

At the factory Open House, Force One presents the B-axis ATC Turn-Mill Machining Center, a machine that does not travel to the exhibition floor but deserves attention from visitors making the short journey to the facility. The series features a high-precision, high-rigidity roller cam B-axis combined with a powerful built-in turn-mill spindle, delivering strong performance in heavy-duty and high-rigidity cutting applications. A turning-focused variant of the same platform retains the ATC and tool magazine structure while removing the milling-specific rotation mechanisms and built-in motor systems, offering customers whose primary work is turning the practical benefits of automatic tool changing at significantly reduced structural complexity, investment cost, and long-term maintenance burden.

HABOR PRECISION INC.

• Booth H0235

With more than 40 years of accumulated experience in temperature control technology, Habor Precision brings to TMTS 2026 a deep and focused expertise in one of precision manufacturing‘s most technically demanding support functions. The company has long concentrated on research, development, and manufacturing of high-precision temperature control systems serving high-end application markets including machine tools, aerospace, medical devices, automation, semiconductors, and electronics.

Habor‘s product range encompasses industrial chillers, high-accuracy temperature control systems, and heat exchanger units, collectively covering a temperature operating range that spans from ambient (10 to 40°C) down to minus 70°C for cryogenic process applications and up to 200°C for elevated-temperature requirements. This breadth of thermal coverage allows a single supplier relationship to address the full diversity of temperature management challenges encountered across a modern high-technology manufacturing facility, from spindle cooling to semiconductor process control.

The fundamental value proposition is consistent across all Habor products: high stability and high-accuracy temperature control that effectively suppresses the thermal problems which, if unmanaged, directly degrade machining precision and process yield during extended operation. In precision machining, the relationship between thermal variation and dimensional error is well understood by process engineers, and Habor positions its solutions as indispensable key components in any high-end equipment configuration where this relationship matters.

Habor‘s response to the global net-zero carbon emissions trend is embedded in its most recent product development. The new-generation HIG-DC inverter chiller incorporates a smart energy management system that automatically adjusts output according to actual cooling load, reducing energy consumption and extending equipment service life without operator involvement. Real-time monitoring and smart energy-saving control mechanisms track chiller operating status and temperature changes continuously, and the accumulated operational data provides a structured basis for process optimisation and maintenance planning. This positions the chiller not merely as a utility but as a data source within a connected manufacturing environment.

The environmental dimension of Habor‘s product engineering extends to refrigerant selection. Current products utilise next-generation environmentally friendly refrigerants alongside low-carbon system architectures, reflecting a commitment to reducing the operational carbon footprint of the equipment itself rather than simply the processes it serves. For international buyers evaluating temperature control partners who can demonstrate both technical performance and environmental responsibility, Habor‘s combination of decades of application experience, smart energy management, and forward-looking refrigerant policy represents a compelling proposition.

OSCARMAXJEENXI TECHNOLOGY

• Booth G0412 (4F)

OSCARMAX presents at TMTS 2026 not as a standalone machine exhibitor but as one half of an integrated manufacturing demonstration, partnering with Jeenxi Technology to showcase a complete smart production cell that spans rough machining, electrode production, and precision EDM finishing within a single automated workflow.

The cell is built around three machines working in sequence. The UH-500 5-axis vertical machining centre from Jeenxi Technology handles rough machining and shape forming. Its 5-axis cutting capability allows accurate processing of complex geometries, inclined surfaces, and concave curves, establishing the precise alignment and dimensional compatibility that the subsequent electrode production and EDM stages depend on. Once the UH-500 completes rough machining, the JHV-550 produces electrodes with a high degree of conformity to the final product geometry. The quality of these electrodes is a direct determinant of what the EDM stage can achieve, and the tight geometric relationship between rough machining and electrode production is the key engineering insight behind the cell‘s architecture.

The OSCARMAX EX500 EDM machine then performs the final precision finishing operations. A robotic arm transfers the semi-finished workpiece from the JHV-550 into the EX500 for micro machining that includes chamfering, surface polishing, and high-precision internal holes or intricate geometrical features. Automated handling via robotic arm or AGV ensures smooth transfer between all three machines, minimising human error and eliminating waiting time at each handover point.

Smart programming based on 3D CAM models ties the workflow together at the software level, automatically generating geometry data, electrode corrections, edge alignment parameters, and discharge sequences across the full process chain. The reduction in manual programming and intervention time between design and manufactured part is significant, particularly for the complex, multi-step components that this type of integrated cell is designed to produce.

The architecture of the solution has been deliberately designed with scalability in mind. SMEs can adopt the system without committing to large-scale production infrastructure, and future additions such as backup machines, inspection stations, or machine vision modules can be incorporated without redesigning the cell. For manufacturers evaluating the path from traditional individual-machine operation toward integrated smart manufacturing, the OSCARMAX and Jeenxi demonstration at TMTS 2026 provides a practical, directly observable reference point.

TIEN DING INDUSTRIAL CO., LTD. (TDCOVER)

• Booth F0112

Founded in Taiwan in 1990, Tien Ding Industrial Co., Ltd. has built its entire business around a component category that machine tool builders depend on but rarely place at the centre of their technical discussion: the telescopic cover. With more than 40 patents and extensive in-house engineering experience, the company develops customised protection systems for the full range of machine tool platforms, including vertical machining centres, lathes, double-column machines, horizontal machining centres, moving-column machines, and multi-axis platforms.

The engineering philosophy at Tien Ding rejects the conventional framing of the telescopic cover as secondary sheet metal. The company approaches each cover as a functional machine element that directly influences motion stability, leakage control, maintenance intervals, and long-term reliability. This distinction is not merely rhetorical. As machine tool speeds increase and manufacturers push toward higher accuracy and tighter process tolerances, the mechanical behaviour of the cover during axis travel becomes a variable that affects the machine‘s overall performance envelope. A poorly designed cover introduces vibration, imposes inertia loads on the drive system, and fails prematurely under repeated mechanical stress. A well-engineered cover does none of these things, and Tien Ding‘s engineering work is focused on exactly this outcome: structural rigidity, smooth travel, sealing performance, and durability under demanding operating conditions.

The design process at Tien Ding is built on PTC Creo 3D modelling software combined with a modular design methodology. This allows the engineering team to develop covers that are precisely matched to each client‘s machine configuration and axis travel requirements, rather than adapting a catalogue product that may compromise performance at the margins. From design and manufacturing through assembly and final testing, all services are provided in-house, enabling close collaboration with machine tool builders throughout the development cycle and rapid iteration when the machine platform itself changes.

The scope of what Tien Ding brings to TMTS 2026 reflects both the depth of a 35-year specialisation in this field and the company‘s conviction that machine protection is a strategic consideration rather than an afterthought. For machine tool manufacturers who have experienced reliability or cleanliness problems attributable to cover performance, and for those designing new platforms where long-term maintenance cost and uptime are primary criteria, Tien Ding‘s application-specific engineering approach and patent-backed product portfolio offer a technically grounded alternative to standard supply chain options.

PERFECT MACHINE CO., LTD.

• Booth H0441

Perfect Machine presents at TMTS 2026 with a clear and focused message: within 1 micron, and a faith in craftsmanship that the company delivers through the PFG-R600 Rotary Table Surface Grinder. This machine is designed to meet the exacting flatness and tolerance requirements of industries where component precision is not a quality metric but a functional prerequisite, specifically the semiconductor, aerospace, and automotive sectors.

The PFG-R600‘s defining technical feature is its centre-of-gravity drive design, which minimises vibration at the source rather than attempting to compensate for it downstream in the process. The effect is a flatness accuracy of up to 1 µm, a specification that places the machine in contention for the most demanding precision grinding applications currently in production. Structural rigidity is maintained throughout the machine‘s service life by oversized, high-stiffness roller-type guideways, which resist deformation under load and preserve accuracy as operating hours accumulate.

The workholding system on the PFG-R600 is a hydrostatic rotary table, a configuration chosen for its exceptional load stability and rigidity during grinding. Hydrostatic tables distribute the workpiece load across a continuous fluid film rather than through mechanical contact, eliminating the micro-vibrations and stick-slip effects that conventional bearing designs can introduce at critical cutting moments. For grinding ceramic substrates, advanced semiconductor packaging components, and other precision parts where surface integrity and flatness are simultaneously specified to submicron levels, this workholding approach is technically appropriate rather than merely premium.

Operational efficiency has been integrated into the machine at the interface level. The HMI touch-screen simplifies control and reduces the learning curve for operators moving from conventional surface grinders to the PFG-R600. Automatic wheel dressing and compensation functions remove the manual intervention that would otherwise be required to maintain consistent wheel geometry and part dimensions across a production run, reducing labour requirements while improving process repeatability. Together, these features make the PFG-R600 compatible with automated and lights-out grinding environments, a requirement increasingly specified by semiconductor and precision component manufacturers building capacity for high-volume production.

For buyers attending TMTS 2026 who are evaluating surface grinding solutions for semiconductor, aerospace, or automotive precision component applications, Perfect Machine‘s PFG-R600 represents a technically grounded answer to the simultaneous demand for submicron flatness, production efficiency, and operational simplicity.

MYLAS MING YANG MACHINERY CO., LTD.

• Booth E0302

MYLAS presents at TMTS 2026 the MTY51/65 CNC Turn-Mill Center, a machine engineered specifically for high-volume precision machining and built around a three-channel, dual-turret, dual-Y-axis architecture that addresses productivity and energy efficiency simultaneously.

The three-channel design is the structural foundation of the MTY51/65‘s productivity claim. By enabling simultaneous execution of three independent machining processes on a single platform, the machine achieves output levels that conventional single-channel turning centres cannot approach without adding machines, floor space, and inter-machine handling operations. Each of the two BMT55 power turrets carries 16 tool positions, with spindle speed up to 6,000 RPM and power output of 5.5 kW per turret. The practical result is a machine that compresses what would ordinarily require multiple sequential setups into a single continuous cycle, reducing both cycle time and the dimensional accumulation of errors that inter-machine transfers introduce.

The dual-Y-axis configuration extends the machine‘s geometric reach, enabling off-centre milling, drilling, and contouring on both the main and sub-spindle sides of the workpiece within the same setup. Combined with synchronised C-axis indexing and independent sub-spindle operation, the MTY51/65 is capable of complete complex part profiles in a single clamping, a capability that is particularly relevant for high-end aerospace, automotive, and precision electronics components where geometric relationships between features must be held to tight tolerances without repositioning error.

Modular configuration options allow customers to select the machine layout that best matches their specific workpiece requirements. The combination of tailstock and sub-spindle, for example, supports efficient machining of long workpieces that would otherwise require dedicated between-centres support. This configurability means that the MTY51/65 is not a single-purpose production machine but a platform adaptable to the varying demands of a high-mix manufacturing environment.

The box guideway design adopted for the MTY51/65 merits particular attention in the context of hard material machining. Box guideways provide the damping and contact stiffness characteristics necessary to maintain stability during interrupted cuts and aggressive material removal in hardened steels and difficult alloys, conditions that would provoke chatter and dimensional instability in lighter guideway configurations. MYLAS reports that this design contributes to a reduction in machining time of more than 50 percent compared to conventional equipment in the relevant application range. The machine also incorporates energy-saving features that reduce power consumption relative to earlier platform generations, positioning it within the sustainable manufacturing theme of TMTS 2026.

7-LEADERS CORP.

• Booth H0311

7-Leaders Corp. arrives at TMTS 2026 with a product and a message that deliberately connects cutting tool engineering to the sustainability agenda now shaping procurement decisions across manufacturing industry. The vehicle for this message is the IMP-series ESG Green Cutting Tool, an interchangeable milling cutter system designed to address a specific and quantifiable problem in the conventional cutting tool economy: the waste generated when a worn cutter head forces the scrapping of an entire solid tool body.

The IMP-series resolves this problem through a replaceable cutter head architecture. When the cutting head wears or requires a geometry change, the user replaces only the small head rather than the complete tool assembly. The tool holder, manufactured from high-rigidity, long-life materials and tested for repeated use hundreds of times, remains in service. This structural distinction between the consumable element and the durable element of the tool system is the engineering basis for 7-Leaders‘ sustainability claim, and the claim is specific: at the same machining efficiency, IMP-series carbon emissions are significantly lower than those of conventional solid tools, because the volume of carbide discarded per unit of machining work is a fraction of what the traditional model requires.

The modular architecture of the IMP-series also addresses tool management economics directly. A range of cutter head types covers different machining requirements: roughing, finishing, and special material cutting are all handled by dedicated head geometries that share a common holder interface. One tool holder combined with an appropriate selection of heads can replace what would previously have been a collection of separate solid end mills, reducing storage requirements, simplifying inventory management, and lowering the total cost of tool ownership over the operational life of a machining cell. For production managers balancing ESG reporting obligations against cost control targets, this combination of reduced material waste and simplified procurement is practically significant.

The IMP-series is positioned as evidence that sustainability and machining efficiency are not competing priorities but compatible design goals. 7-Leaders‘ argument is that choosing a green cutting tool architecture does not require accepting lower performance, but rather reflects the maturity of a tool system that has been engineered to deliver both. Each replacement of a cutter head in place of a complete tool represents a concrete, measurable reduction in the environmental burden of the machining operation, making the cumulative impact of individual tool change decisions visible in a way that conventional solid carbide purchasing obscures.

At Booth H0311 at TMTS 2026, 7-Leaders presents the IMP-series alongside its established range of end mills, drills, and reamers, offering visitors both the new ESG-oriented product line and the broader cutting tool portfolio that the company has developed over its years in the Taichung industrial ecosystem.