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쎄타텍의 PBF(분말 베드 융용) 기술을 통해 제작된 금속 부품의 기계적 물성과 조성 정보를 소개합니다. 주요 시험 데이터와 응용 가능성을 함께 제공하여 고객에게 신뢰할 수 있는 성능 지표를 전달합니다. PBF property data Proving trust with performance validation. Setatec provides mechanical properties, chemical composition, surface quality, etc. of parts produced in various metal manufacturing processes. We accumulate key performance data and share it transparently with our customers and industries. By material below Click the button to check the test conditions and measurement results for each process. PBF 인장물성 1. PBF 티타늄 합금 2. PBF 인코넬718 합금 Please contact us for other HASTELLOY, W-Re, and pure tungsten materials. [PBF] Titanium alloy / Inconel alloy To systematically verify the print quality and repeatability of the PBF process, CetaTech has designed and fabricated dedicated specimens for tensile testing and compositional analysis. Each material (Ti-6Al-4V, Inconel 718) was additively manufactured in the form of identical rectangular tubes, and standardized procedures were applied to evaluate the correlation between build orientation and the resulting mechanical and chemical properties. 1. PBF titanium alloy tensile properties and composition This test was performed on tensile specimens laminated using Ti-6Al-4V powder (particle size: 10–53 ㎛) and machined according to ASTM E8 standard. Compositional analysis was conducted on specimens extracted from the center of the additively manufactured sections,using high-precision quantitative instruments such as gas analyzers (O/N/H), carbon-sulfur analyzers, and spark optical emission spectroscopy (S-OES). The reference standards for comparison were the corresponding ASTM or AMS specifications for each alloy. Stable yield behavior and elongation characteristics were observed in both the 0° and 90° build orientations. Ti-6Al-4V demonstrates both high strength and excellent elongation, based on its optimized composition and properties for structural and aerospace applications. The following presents the evaluation results for the Inconel alloy. 2. PBF Inconel alloy tensile properties and composition This test was performed on tensile specimens laminated using In718 powder (particle size: 15–45 ㎛) and machined according to ASTM E8 standard. Composition analysis was performed on specimens collected from the center of the laminate, using ultra-precision quantitative analysis equipment such as a gas analyzer (O/N/H), a carbon-sulfur analyzer, and S-OES. The comparison standard is the corresponding ASTM or AMS standard specification of each alloy. INCONEL 718 maintains excellent corrosion resistance and mechanical properties even in high temperature and high pressure environments, and through ThetaTech's process optimization, uniform composition and stable tensile performance were secured. Don't see the data you want? If you do not have the process conditions or material property data you are looking for, please contact us at any time. Ask an expert

쎄타텍은 10대의 자체 개발 PBF 장비를 운용하며, 복잡 형상, 고강도, 고정밀 부품을 지원하는 금속 3D 프린팅 기술을 제공합니다. High Quality Built In-House CetaTech is a CAE technology-based company specializing in the development and production of metal and ceramic parts using powder injection molding and powder metallurgy technology. Powder metallurgy is the conventional forming technique of powder through compaction & sintering, Cold Isostatic Pressing(CIP), and Hot Isostatic Pressing(HIP). Powder Metallurgy(P/M) CAD Design & Preparation The CAD model is designed to reflect the part’s geometry, dimensions, and mechanical requirements. Optimal build orientation and layering strategies are established to maximize quality and efficiency. Powder Deposition Metal powder is evenly spread onto the build platform in thin, uniform layers, forming the foundation for high-precision additive manufacturing. Selective Laser Melting A laser beam selectively melts and solidifies the metal powder, layer by layer, to build complex three-dimensional geometries. This process produces components with high dimensional accuracy. Post-Processing Depending on requirements, the printed part undergoes support removal, heat treatment, and other post-processing steps to finalize its mechanical properties and overall quality. Inspection & Quality Assurance The completed part is subjected to a rigorous quality control process, including dimensional inspection, surface roughness measurement, and non-destructive testing, ensuring full reliability. Powder Metallurgy(P/M) Powder metallurgy is the conventional forming technique of powder through compaction & sintering, Cold Isostatic Pressing(CIP), and Hot Isostatic Pressing(HIP). Die Compaction Die Compaction Powder metallurgy is the conventional forming technique of powder through compaction & sintering, Cold Isostatic Pressing(CIP), and Hot Isostatic Pressing(HIP). Powder Metallurgy(P/M) Powder Metallurgy(P/M) 형상자유도 표면 조도 치수 정확도 기계적 물성 소재 Free form , unlimited design Completed without internal channels and complex structures and support Struggling with internal channels and complex geometries that are difficult to support? With CetaTech’s proprietary design technology and expertise in print parameter optimization, we ensure both geometric freedom and mechanical precision—even in complex structures—without the need for internal supports. (Right) General output process ⌀0.4mm cylinder with horizontal output without support Shape collapse occurs [Left] ThetaTech output process Perfect ⌀0.4mm horizontal cylinder without support Excellent shape freedom Where Every Micron Counts Dimensional error 0.03mm, precision becomes reality CetaTech’s proprietary process optimization technology and in-house designed PBF equipment achieve dimensional tolerances as tight as ±0.03 mm. Beyond simple flat geometries, consistent dimensional accuracy is maintained even in complex internal channels and curved surfaces, ensuring stable results without quality variation in repeated production. This solution is optimized for manufacturing precision-critical components in aerospace, medical, and semiconductor industries. Powder metallurgy is the conventional forming technique of powder through compaction & sintering, Cold Isostatic Pressing(CIP), and Hot Isostatic Pressing(HIP). Mechanical Integrity, Proven by Data CetaTech conducts testing based on various material standards, including ASTM F2924 and F3005, achieving mechanical properties such as strength and elongation that meet or exceed ASTM requirements. Leveraging in-house developed equipment and optimized processes, we deliver superior mechanical performance compared to standard commercial printers. All material properties are rigorously verified through certified external laboratories and our internal measurement systems. We provide customized material compositions and process parameters tailored to meet the stringent requirements of high-reliability industries such as aerospace, medical, and defense. As-printed, Smoothness Illumination control tailored to shape and material characteristics Through material-specific parameter optimization and proprietary scanning strategies, CetaTech achieves surface roughness levels as low as Ra < 3 μm—even on downskin surfaces. While roughness may vary slightly depending on the material, we deliver optimal surface quality for industries such as medical, aerospace, and precision machinery, where minimal post-processing is essential. Regardless of part complexity or build orientation, we ensure consistent and stable surface finishes, reducing post-processing time and cost while meeting high-end surface quality requirements. Versatile Materials, Tailored Performance From titanium to super heat-resistant alloys, a lineup of high-performance metal materials to meet the needs of each industry CetaTech provides precision additive manufacturing of high-performance metal materials—including Ti-6Al-4V, AlSi10Mg, Inconel 718, Hastelloy, W-Re alloys, and pure tungsten—tailored to the technical demands of industries such as aerospace, medical, defense, and semiconductors. We offer fully integrated solutions across design, process, and equipment to optimally address the unique properties of each material, including complex geometries, high-temperature environments, and high-strength performance requirements. List of applicable materials Powder Metallurgy(P/M) From the ground to space, we create trusted components for extreme environments. Defense Powder Metallurgy(P/M) PIM, a combination of Injection Molding and Powder Metallurgy, consists of mixing, injection molding, debinding and sintering products. see more Aerospace Powder Metallurgy(P/M) PIM, a combination of Injection Molding and Powder Metallurgy, consists of mixing, injection molding, debinding and sintering products. see more Medical Powder Metallurgy(P/M) PIM, a combination of Injection Molding and Powder Metallurgy, consists of mixing, injection molding, debinding and sintering products. see more Setatech completes our customers' designs, from dimensional precision to structural optimization . Contact Us

Aerospace, Medical, Defense 등 각 산업 분야에서 쎄타텍의 기술이 적용된 실제 사례를 통해 제품력을 강조합니다. Applications From Defense to Daily The wide range of applications of ThetaTech technology In industrial settings where demand for high-precision components is increasing, Setatec provides manufacturing solutions that meet all the stringent requirements , including heat resistance, high-temperature materials, complex shapes, high strength, and dimensional accuracy . Based on self-developed equipment and process optimization technology, we implement customers' design ideas quickly and reliably. Defense PBF / DED / MIM / CIP / HIP / DP / PF Aerospace PBF / DED / MIM(PIM) Medical PBF / MIM General Industry MIM / CIP / HIP / DP / PF / PBF Defense Surface-to-air portable anti-aircraft missile: Shin-Gung (warhead) Multiple rocket launcher: Cheonmu (submunition) Surface-to-surface missile: Hyunmoo (submunition) Tactical Fleet-to-Surface Missile: Jet Vane Anti-ship missile defense missile: Jet Vane Medium-range surface-to-air missile: Cheongung II (warhead) Long-range surface-to-air missile: L-SAM (propulsion components) Aerospace Satellite Antenna Parts Thruster Combustion Chamber Rocket Engine Nozzle Medical Ultrasonic Dental Tip Cranium Implant Spinal Implant (Spinal Cage) Knee Implant Dental Implants and Components This is a photo of an actual part manufactured by ThetaTech. Contact us today to find out how ThetaTech can add innovation to your industry. Contact Us

PIMsolver는 분말사출성형(PIM) 공정 해석을 위한 CAE 소프트웨어로, 충전·압력·온도 유동을 시뮬레이션하여 금형 설계와 공정 최적화를 지원합니다. C e t a T e c h Software We will open up a sustainable future through constant innovation and creative thinking. PIMsolver PMsolver PIMsolver PIMsolver is a CAE analysis software for the Powder Injection Molding process. Rigorous physical modeling of the inherent rheological properties of the powder-binder mixture and the physical properties database are used to analyze heat transfer and flow phenomena during mold filling and packing processes. In addition, we provide solutions for powder injection molding process through heat transfer analysis of mold considering insulation effect due to separation of powder and binder, and deformation analysis during sintering process. With PIMsolver, you can design PIM parts and molds, and optimize molding process conditions at the design stage, saving development time and mass-production costs. View details Blade Block Curved Scales Straight Scales Pressure Temperature

C eta T ech Technology We will open up a sustainable future through constant innovation and creative thinking. Die Compaction Die Compaction Cold Isostatic Pressing Hot Isostatic Pressing Powder Forging Powder Metallurgy (PM), the Flexible Solution for Metal Manufacturing Powder Metallurgy (PM) is a manufacturing technology in which metal or ceramic powders are compacted and then sintered below their melting points to produce the desired components. It encompasses a variety of processes—including traditional die compaction and sintering, powder injection molding (PIM), isostatic pressing (CIP, HIP), powder forging (P/F), and additive manufacturing (AM)—which are selected based on part geometry, size, and production volume. Powder Metallurgy(P/M) Powder metallurgy is the conventional forming technique of powder through compaction & sintering, Cold Isostatic Pressing(CIP), and Hot Isostatic Pressing(HIP). Powder Metallurgy(P/M) Powder metallurgy is the conventional forming technique of powder through compaction & sintering, Cold Isostatic Pressing(CIP), and Hot Isostatic Pressing(HIP). Among the various PM processes, there is one best suited to your product. CetaTech’s engineering team is here to help you find the optimal solution. Ask an expert

MIM, CIM을 포함한 PIM 전체 공정에 대한 기술 개요와 쎄타텍의 고도화된 통합 생산 역량을 소개합니다. PIM (Powder Injection Molding) Mass production solutions for complex precision components Powder metallurgy is the conventional forming technique of powder through compaction & sintering, Cold Isostatic Pressing(CIP), and Hot Isostatic Pressing(HIP). Powder Metallurgy(P/M) Powder metallurgy is the conventional forming technique of powder through compaction & sintering, Cold Isostatic Pressing(CIP), and Hot Isostatic Pressing(HIP). Powder Metallurgy(P/M) Powder Metallurgy(P/M) Powder metallurgy is the conventional forming technique of powder through compaction & sintering, Cold Isostatic Pressing(CIP), and Hot Isostatic Pressing(HIP). Powder Metallurgy(P/M) Powder Metallurgy(P/M) Powder Metallurgy(P/M) 형상자유도 고정밀 공정 통합 및 시뮬레이션 최적화 소재 기계적 물성 Complex shapes, precisely as is Design freedom beyond shape constraints Setatech's PIM process can reproduce complex 3D shapes and internal structures with high precision that are difficult to implement with existing processing methods. By combining injection simulation based on flow analysis, mold design technology, and debinding and sintering know-how based on uniform shrinkage control, it is possible to repeatedly produce precise shapes such as undercuts, micro ribs, hollow structures, and curved channels. It enables design realization that satisfies both function and design. Where Every Micron Counts Consistent precision even in complex geometries PIM is strong in repetitive production Setatec controls the entire process from mold making to injection and sintering, and reliably produces parts that require high precision in the PIM process. In particular, it can reproduce even minute mold shapes with high precision, providing optimized solutions for fields that require precision, such as medical parts or electronic miniature precision parts. Even in repeated production, there is little variation between products, resulting in very high quality consistency and reliability. Powder metallurgy is the conventional forming technique of powder through compaction & sintering, Cold Isostatic Pressing(CIP), and Hot Isostatic Pressing(HIP). Excellent mechanical properties Exceed ASTM standards Setatec has secured mechanical properties that exceed the standards of ASTM F2885 (Ti-6Al-4V) and ASTM F2989 (CP-Ti). All test specimens achieved a relative density of 99.5% or higher, which is a level that enables the production of high-strength and high-reliability parts. It also provides the optimal solution in fields that require high-quality properties such as aerospace and medical. Endless Possibilities with Diverse Materials The material is as free as the shape. ThetaTech's PIM process supports a wide range of materials from metals to ceramics. Stainless steel (STS630, STS316L, 17-4PH), titanium alloy (Ti-6Al-4V), pure titanium (CP-Ti), tungsten composites (WHA, W-Cu), high-speed tool steel (SKH-57, HSS), rhenium alloy (W-25Re), cemented carbide (WC-10Co, Cermet), ceramics (Alumina, Zirconia), etc. The optimal material can be selected based on various functional requirements such as precision, heat resistance, and wear resistance. Based on accumulated data on injection characteristics, shrinkage, and sintering yield by material, ThetaTech provides designs and process conditions optimized for customer required performance. List of applicable materials Internalization of the entire process, from mold to quality From design to verification, all processes are done in-house. Setatech independently performs all processes from mold design and manufacturing to powder mixing, injection, debinding, sintering, and even post-processing and quality verification based on dimensional and composition analysis. Optimized manufacturing conditions are secured through CAE-based process simulation, and Setatech’s PIM process technology has been recognized worldwide as a technology by being listed in the ASM Handbook, Vol. 22B under the title “Modeling and Simulation of MIM.” PIM technology This is how it is being used. View application examples View Products Need a custom design? We respond with manufacturing know-how accumulated for over 20 years. Contact PIM

PIMsolver의 곡면 계측 기술 또는 곡면 형상 제품을 소개하는 기술 응용 사례 중심의 페이지입니다. C e t a T e c h Software We will open up a sustainable future through constant innovation and creative thinking. PIMsolver PMsolver PIMsolver PIMsolver is a CAE analysis software for the Powder Injection Molding process. Rigorous physical modeling of the inherent rheological properties of the powder-binder mixture and the physical properties database are used to analyze heat transfer and flow phenomena during mold filling and packing processes. In addition, we provide solutions for powder injection molding process through heat transfer analysis of mold considering insulation effect due to separation of powder and binder, and deformation analysis during sintering process. With PIMsolver, you can design PIM parts and molds, and optimize molding process conditions at the design stage, saving development time and mass-production costs. View details Blade Block Curved Scales Straight Scales Pressure Temperature

C eta T ech Intellectual Property Rights We will open up a sustainable future through constant innovation and creative thinking. greetings Company History Intellectual Property Rights. Quality Certification Equipment availability status Directions Intellectual Property Rights Quality Certification EN 9100:2018, AS9100D, JIS Q 9100:2016, ISO 9001:2015

C eta T ech Location We will open up a sustainable future through constant innovation and creative thinking. CEO Message Company History Certifications & Patents Manufacturing Capabilities Location CetaTech Headquarters • By Bus: Take #511 → Get off at BungJeong (15 minutes) • By Taxi (10 minutes) From Osong Station By Car • Gyeongbu Expressway Cheongju Tollgate → Osongsaengmyeong-ro → CetaTech Inc. CetaTech Osong Plant 2

본 페이지는 PMsolver를 활용하여 복잡한 블록 구조의 분말사출성형 공정 중 압력 및 온도 분포를 시각화하고 해석한 사례를 제공합니다. 실제 형상 기반의 유동 해석으로 금형 설계와 공정 안정성 확보에 기여합니다. C e t a T e c h Software We will open up a sustainable future through constant innovation and creative thinking. PIMsolver PMsolver PIMsolver PIMsolver is a CAE analysis software for the Powder Injection Molding process. Rigorous physical modeling of the inherent rheological properties of the powder-binder mixture and the physical properties database are used to analyze heat transfer and flow phenomena during mold filling and packing processes. In addition, we provide solutions for powder injection molding process through heat transfer analysis of mold considering insulation effect due to separation of powder and binder, and deformation analysis during sintering process. With PIMsolver, you can design PIM parts and molds, and optimize molding process conditions at the design stage, saving development time and mass-production costs. View details Blade Block Curved Scales Straight Scales Pressure Velocity Temperature Density

DP(Die Pressing) 기술을 기반으로 한 금형압축성형 공정의 특징과 장점, 적용 사례를 중심으로 기술력을 강조합니다. C eta T ech Technology We will open up a sustainable future through constant innovation and creative thinking. Die Compaction Die Compaction Cold Isostatic Pressing Hot Isostatic Pressing Powder Forging Die Compaction Compared to Powder Injection Molding(PIM), the molding process and the manufacturing unit cost of Die Compaction(DP) is more competitive. However, due to the shapeable formed and residual pores after sintering, DP has a disadvantage of lower physical properties than parts made by PIM. PMsolver, the company developed special CAE software, can analyze the die compression molding and sintering processes. PMsolver also studies the relationship between process conditions, crack formation and sintering deformation. With this technology and experience, CetaTech Inc. concentrates on developing products that are difficult to manufacture by compression molding. The research results of our company have been recognized worldwide and published in "Modeling and Simulation of Press and Sinter Powder Metallurgy" in the ASM Handbook, Volume 22B (Metals Process Simulation), pp.323-334. In addition, the results of this study are recognized as important technologies in the field of Powder Metallurgy(PM) and the same contents were published in the ASM Handbook, Volume 7 (Powder Metallurgy), pp.179-190 of 2015 Die Compaction & Sintering(DP) Process Design Process of DP using CAE technology DP Process Simulation(1) using CAE technology DP Process Simulation(2) using CAE technology DP Process Simulation(3) using CAE technology

C eta T ech Facilities We will open up a sustainable future through constant innovation and creative thinking. greetings Company History Intellectual Property Rights. Quality Certification Equipment availability status Directions Equipment that connects processes , structures that complete manufacturing . Setatech has equipment infrastructure that can handle the entire process from metal 3D printing to precision molding, sintering, processing, and inspection . From process linkage to quality control, we complete our customers’ products with the utmost precision. You can check the equipment status for each process by clicking the process-specific buttons below . Molding/Degreasing Additive Manufacturing Sintering process quality Plastic surgery degreasing Metal powder is formed into a desired shape, Reliably removes binders This is the starting point of the Setatec powder metallurgy process. Additive Manufacturing (AM) - DED, L-PBF, and others Setatech develops its own metal and ceramic 3D printing equipment , enabling both process optimization and material customization. Setatech develops its own metal and ceramic 3D printing equipment , enabling both process optimization and material customization. Setatech develops its own metal and ceramic 3D printing equipment , enabling both process optimization and material customization. Setatech develops its own metal and ceramic 3D printing equipment , enabling both process optimization and material customization. Heat treatment/Sintering High temperature sintering , HIP, and heat treatment optimize strength, density, and durability. Machining & Post Treatment We have precision machining equipment and post-processing systems for dimensional correction and surface roughness improvement after printing or molding . Test & Quality Control Through a variety of precision inspection equipment, including 3D measuring machines, optical microscopes (OM), component analyzers, and density meters, we can comprehensively verify the product's shape, composition, mechanical properties, internal structure, and even pressure vessel verification tests. What products do you make with this equipment? Setatec handles everything from material selection to precision processing. We carry out all processes ourselves and produce customer-specific parts . Browse our products Ask an expert