Overview
The jewellery industry is rapidly evolving with the adoption of 3D printing, driven by the growing demand for customization, faster production, and intricate design aesthetics. Additive manufacturing enables a seamless digital workflow from design and prototyping to mould making and casting, allowing designers to create complex geometries, fine details, and lightweight structures that are difficult to achieve using traditional methods.
This technology not only enhances design freedom and product quality but also improves efficiency, reduces material wastage, and shortens time-to-market, making 3D printing a game-changing solution for modern jewellery manufacturing.
Why 3D Printing Transforms Jewellery Making
Unlock unmatched precision, creativity, and efficiency in jewellery design and production with advanced 3D printing technology.
Limitless Design Freedom
Enhanced Strength & Continuity
Faster Production Cycle
Customized Solutions
High Accuracy & Detail
Efficient Material Usage
Partnered with Trusted Global OEM Leaders
Our cutting-edge 3D printing solutions have empowered numerous jewellery innovators across India and beyond.
Jewellery Industry Applications
Explore how 3D printing transforms every stage of jewellery production
Recommended 3D Printers for Jewellery
Precision, reliability, and creativity converge in these specialised 3D printing machines.
3D Systems MJP 300W Plus
The MJP 300W Plus 3D printer delivers flawless wax patterns with superior surface quality and up to 30% faster prints. Optimized for jewellery production, it...
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3D Systems ProJet MJP 2500 Plus
The ProJet MJP 2500 Plus delivers high-precision dental models with ±50 µm accuracy and matte-surface quality. Designed for 24/7 production, it speeds workflows, reduces remakes, and...
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ATO by 3DLAB Noble
ATO Noble is a next-generation ultrasonic metal atomizer specifically developed for processing precious metals such as gold, silver, platinum, and palladium. Designed with a strong...
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3D Ceram C1000 FLEXMATIC
The C1000 FLEXMATIC is an industrial ceramic 3D printer offering large-format, support-free printing with semi-automated, continuous production. Ideal for high-performance, reliable manufacturing workflows
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3DCeram C101 EASY FAB
The C101 EASY FAB is a high-precision ceramic 3D printer for labs and research teams, offering support-free SLA printing, automatic slurry control, and seamless scale-up...
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3DCeram C101 EASY LAB
A compact ceramic 3D printer for research and R&D, offering high-accuracy laser SLA and customizable, material-efficient printing for advanced ceramic development.
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3DCeram C3601 ULTIMATE
The C3601 ULTIMATE is an industrial ceramic 3D printer with a large 600×600×300 mm build platform and top-down SLA. It delivers high-precision, mass-production ceramic parts efficiently.
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3DCeram MAT Extrusion
The M.A.T system is a versatile industrial 3D printer for ceramics and metals, supporting filaments, pellets, and pastes. Integrated CNC green-machining ensures precise, ready-to-sinter parts.
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3D Ceram C900 FLEX
The C900 FLEX is a high-performance ceramic 3D printer offering precision, repeatable accuracy, and scalable production. Its flexible workflow and multi-size build platforms support diverse...
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G.B. F.lli Bertoncello Alpha 15
Our 3D Printing Furnace is designed to support high-precision manufacturing processes by delivering controlled, uniform heating for dewaxing and thermal treatment. Built with robust materials...
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G.B. F.lli Bertoncello Alpha 24
Our 3D Printing Furnace is designed to meet the demanding requirements of modern casting and additive manufacturing environments. Built with advanced resistance heating technology and...
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G.B. F.lli Bertoncello Omega 1
This advanced lost-wax casting system is engineered to deliver exceptional quality, repeatability, and control for high-precision applications such as jewelry, fine metal components, and intricate...
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G.B. F.lli Bertoncello Omega 3
Our 3D Printing Casting solution combines modern automation with proven lost-wax casting principles to deliver consistently high-quality metal parts. Designed for precision industries such as...
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G.B. F.lli Bertoncello Omega 30
Our 3D Printing Casting solution is engineered to meet the demanding needs of high-precision metal manufacturing. Designed around advanced lost-wax casting principles, this system combines...
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G.B. F.lli Bertoncello Omega 50
Our 3D Printing Casting solution is designed to deliver high-precision metal casting using advanced lost-wax processes. Built with intelligent heating control, automated process management, and...
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ARN Alpha
Designed for modern jewelry manufacturers and additive manufacturing specialists, this compact electropolishing system delivers superior surface refinement for 3D printed precious metals. It effectively smoothens...
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ARN Beta
The ZETA Electropolishing System is a next-generation solution developed to meet the evolving needs of 3D printed jewellery manufacturing. Built with an innovative titanium drum...
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ARN Epsilon
The EPSILON Electropolishing System is designed to meet the demanding needs of high-volume jewelry manufacturers and 3D printed casting producers. Engineered to process large batches...
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ARN Zeta
The ZETA Electropolishing System is a next-generation solution developed to meet the evolving needs of 3D printed jewellery manufacturing. Built with an innovative titanium drum...
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Raise3D DF2+
Experience advanced 3D printing with this industrial-grade DLP machine, built for both precision and speed. It delivers high accuracy and fast turnaround, making it ideal...
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Discover the right 3D printing solutions for your jewellery business today.
Materials for Jewellery 3D Printing
Achieve exquisite designs with metals, waxes, and resins engineered for precision and aesthetic quality.
LaserForm 316L (B)
LaserForm 316L (B) is an extra-low carbon stainless steel offering excellent corrosion resistance, strength, and sterilizability. It is machinable, weldable, and polishable—ideal for medical tools, food processing, chemical applications, and durable end-use parts.
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LaserForm CoCr (B)
CoCr (cobalt-chrome) is a high-performance metal powder offering excellent corrosion and wear resistance, high strength, and superior high-temperature stability, making it ideal for biomedical implants, dental applications, and durable industrial components.
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LaserForm Ti Gr23 (A)
LaserForm Ti Gr23 is a high-strength, lightweight titanium alloy with excellent biocompatibility and lower oxygen content than Grade 5, delivering improved ductility and fracture toughness—ideal for medical implants, aerospace components, and high-performance functional parts.
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LaserForm Ti Gr5 (A)
LaserForm Ti Gr5 is a high-strength, lightweight titanium alloy with excellent biocompatibility, making it ideal for aerospace components, medical implants, and functional parts requiring durability, corrosion resistance, and reliable performance in demanding engineering applications.
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VisiJet Armor (M2G-CL) (MJP)
VisiJet Armor M2G‑CL is a tough, ABS‑like clear performance plastic delivering excellent impact resistance, durability, and clarity. It offers reliable strength with smooth surface finish, making it ideal for functional prototypes, engineering models, and design verification with clear aesthetics.
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VisiJet Armor Max (M2G-JF)
VisiJet CR‑CL clear polycarbonate is a rigid, translucent material offering an excellent balance of strength, toughness, and optical clarity. It delivers reliable performance and smooth finish, making it ideal for functional prototypes and applications needing both durability and clear aesthetics.
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VisiJet M2 CAST (MJP)
VisiJet M2 Cast is a 100% wax 3D printing material designed for precision jewelry and industrial metal casting. It delivers repeatable, high-quality, and durable patterns at high speed, ensuring reliable performance and excellent detail in lost-wax casting applications.
VisiJet M2 EBK (MJP)
VisiJet M2 EBK is a flexible, opaque black elastomer material offering an excellent balance of pliability and strength. It delivers high elongation and full elastic memory, making it ideal for rubber-like parts such as gaskets, seals, and functional prototypes.
VisiJet M2 ENT (MJP)
VisiJet M2 ENT is a flexible, translucent elastomer material designed for rubber-like parts with excellent elongation and elastic memory. It offers an ideal balance of flexibility and strength, making it suitable for functional prototypes such as gaskets, seals, and soft-touch components.
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VisiJet M2E-BK70 (MJP)
VisiJet M2E-BK70 is a tough black elastomer with 70A Shore hardness, offering excellent compression, rebound, and shape memory. Ideal for functional prototypes, it enables durable rubber-like parts such as seals, gaskets, and flexible components.
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VisiJet M2P-CST Crystal™
VisiJet M2P CST Crystal is a production‑ready translucent castable resin designed to preserve fine features and thin walls. It delivers precision detail, smooth surface finish, and reliable performance, making it ideal for investment casting and intricate pattern applications.
VisiJet M2R-BK (MJP)
VisiJet M2R-BK is a high-modulus, rigid black plastic offering enhanced tensile strength and stiffness. It delivers excellent accuracy, smooth surface finish, and durability, making it ideal for functional prototypes, thin-walled parts, panels, and general-purpose engineering applications.
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VisiJet M2R-CL (MJP)
VisiJet M2R CL is a high‑modulus, rigid clear plastic material offering excellent stiffness and transparency. It delivers reliable dimensional accuracy and smooth surface finish, making it ideal for functional prototypes, engineering models, and visual design applications requiring clarity and strength.
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VisiJet M2R-GRY (MJP)
VisiJet M2R GRY is a high‑visual‑contrast, rigid gray plastic material offering excellent stiffness and surface finish. It delivers precise dimensional accuracy and durability, making it ideal for engineering prototypes, functional models, and general‑purpose applications requiring clear feature definition.
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VisiJet M2R-TN
VisiJet M2R TN‑0 is a high‑contrast, high‑modulus rigid tan plastic offering excellent stiffness, heat resistance, and dimensional accuracy. It delivers reliable performance and smooth surface finish, making it ideal for functional prototyping, tooling, and engineering applications.
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VisiJet M2R-WT (MJP)
VisiJet M2R WT is a high‑modulus, rigid white plastic offering excellent stiffness, surface quality, and dimensional accuracy. It delivers reliable performance for functional prototypes, engineering models, and general‑purpose applications requiring strength and smooth finish.
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VisiJet M2S-HT250 (MJP)
VisiJet M2S HT250 is a strong, rigid, translucent material with best‑in‑class heat deflection up to 250 °C. It delivers exceptional thermal stability and stiffness, making it ideal for high‑temperature functional prototyping, tooling, and industrial applications.
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VisiJet M2S-HT90 (MJP)
A strong and transparent rigid material for applications requiring temperature resistance and/or biocompatibility, ideal for rapid tooling, functional prototyping in warm environments, and medical devices with fine features and internal structures.
VisiJet ProFlex (M2G-DUR) (MJP)
VisiJet ProFlex (M2G – DUR) material is ideal for living hinge applications as well as a range of applications requiring durability and extreme pliability. This polypropylene-like rigid clear plastic delivers an effective combination of high impact resistance and extreme flex to provide robust engineering-grade performance.
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VisiJet Support Wax Remover (MJP)
VisiJet Support Wax Remover is a safe, universal post-processing fluid designed for easy removal of supports from MultiJet Printing (MJP) wax casting patterns. It ensures efficient cleaning, improved surface quality, and reliable performance in investment casting workflows.
VisiJet Wax Jewel Red (MJP)
VisiJet Wax Jewel Red is a 100% pure wax material designed for producing highly intricate jewelry casting patterns. It offers enhanced flexibility and durability, enabling fine filigree designs and reliable performance throughout the lost wax casting process.
VisiJet Wax Jewel Ruby (MJP)
VisiJet Wax Jewel Ruby is a 100% pure wax material designed for highly detailed jewelry casting patterns. It offers excellent durability, flexibility, and dimensional stability, enabling intricate designs and reliable performance throughout the lost wax casting process.
Alumina (Al2O3)
Alumina (Al₂O₃) is a versatile ceramic with excellent high‑temperature strength, thermal conductivity, electrical resistivity, hardness, wear resistance, and chemical stability—ideal for advanced industrial parts, electrical insulators, and high‑temperature structural components.
Zirconia
Zirconia (ZrO₂) is a strong ceramic with excellent mechanical strength, high hardness, wear and chemical resistance, low thermal conductivity, and high temperature stability. It is also colorable for precision jewelry and advanced industrial applications.
Silicore
Silicore is a silica‑based ceramic engineered for foundry cores, offering high mechanical strength and a porous structure that enhances leachability in complex geometries—ideal for precision casting, shell molds, and demanding metal casting applications
Alumina Toughened Zirconia
Alumina‑toughened zirconia (ATZ) is a biocompatible, high‑strength ceramic with excellent wear resistance and thermal shock tolerance—ideal for demanding biomedical implants, prosthetics, and rugged industrial components requiring long‑lasting performance.
Cordierite
Cordierite ceramic offers low thermal expansion (CTE), low thermal conductivity, and excellent wear resistance, making it ideal for vacuum applications, high‑temperature components, kiln furniture, and parts requiring dimensional stability under thermal cycling.
Zirconia 8Y
8 mol% yttria‑stabilized zirconia (8YSZ) is a high‑performance ceramic engineered for fuel cell applications, offering excellent ionic conductivity, thermal stability, and mechanical strength—ideal for solid oxide fuel cells and advanced energy systems.
TCP
Tricalcium Phosphate (TCP) is a bioceramic widely used for medical implants and bone repair, especially for replicating spinal structures due to its excellent biocompatibility and similarity to natural bone composition.
HAP
Hydroxyapatite/TCP is a bioactive ceramic with a chemical composition similar to natural bone, ideal for biomedical applications. It promotes excellent osteointegration, making it suitable for bone grafts, implants, and regenerative solutions.
Silice SiO2
Silica (SiO₂) ceramic offers excellent thermal stability and precision, making it ideal for foundry cores, investment casting applications, and optical components where high temperature resistance, dimensional accuracy, and surface quality are critical.
Silicon Nitride
Silicon nitride is one of the hardest and most durable technical ceramics, with high resistance to thermal shock, wear, and corrosion. It is used in pumps, valves, semiconductors, and other components.
Aluminium Nitride
Aluminium Nitride (AlN) is a high‑performance ceramic offering exceptional mechanical strength, excellent thermal conductivity, and electrical insulation—ideal for advanced electronics, power modules, substrates, and components requiring reliable heat management and dielectric performance.
Zirconia (ZrO2)
A tough, high-strength ceramic with superior fracture resistance and thermal stability, suitable for precision and high-stress components.
Ag 99%
Gold, platinum, and silver can be atomized into fine powders, enabling limitless design possibilities. Using ATO Noble allows zero-waste production, crucial for the jewelry industry, while preserving the metals’ original chemical composition and standard.
Au 9ct
Gold, platinum, and silver can be atomized into fine powders, enabling limitless design possibilities. Using ATO Noble allows zero-waste production, crucial for the jewelry industry, while preserving the metals’ original chemical composition and standard.
Au 18ct
Gold, platinum, and silver can be atomized into fine powders, enabling limitless design possibilities. Using ATO Noble allows zero-waste production, crucial for the jewelry industry, while preserving the metals’ original chemical composition and standard.
Au 99,99%
Gold, platinum, and silver can be atomized into fine powders, enabling limitless design possibilities. Using ATO Noble allows zero-waste production, crucial for the jewelry industry, while preserving the metals’ original chemical composition and standard.
Ir 99%
Gold, platinum, and silver can be atomized into fine powders, enabling limitless design possibilities. Using ATO Noble allows zero-waste production, crucial for the jewelry industry, while preserving the metals’ original chemical composition and standard.
Pt alloys
Gold, platinum, and silver can be atomized into fine powders, enabling limitless design possibilities. Using ATO Noble allows zero-waste production, crucial for the jewelry industry, while preserving the metals’ original chemical composition and standard.
Silicon Carbide (SiC)
A high-performance ceramic offering exceptional hardness, thermal conductivity, and resistance to extreme temperatures and wear—ideal for demanding industrial applications.
Titanium (Ti6Al4V)
A lightweight, high-strength alloy with outstanding corrosion resistance and biocompatibility, widely used in aerospace and medical applications.
Stainless Steel (316L & 17-4PH)
Durable metal alloys offering excellent corrosion resistance (316L) and high strength with hardness after heat treatment (17-4PH).
Copper
A highly conductive metal with excellent thermal and electrical conductivity, ideal for heat exchangers, electrical components, and functional prototypes.
Stainless steel
Austenitic stainless steel 316L, with high strength and corrosion resistance, could drop to low temperature in a wide temperature range. The overall performance of the steel is better than 310 and 304 stainless steel, 316L stainless steel also has good resistance to chloride erosion performance.
Hastelloy
A high-performance nickel-based superalloy offering superior strength, oxidation resistance, and corrosion resistance for demanding high-temperature and chemically aggressive environments.
High temperature alloy
It is a pre-alloyed nickel-based superalloy powder optimized for additive manufacturing, providing high strength and stability at elevated temperatures along with excellent oxidation and corrosion resistance.
Titanium alloys
Ti6Al4V is a titanium alloy offering excellent mechanical strength, corrosion resistance, lightweight performance, and biocompatibility—ideal for aerospace components, medical implants, dental prosthetics, and high-performance functional parts.
Tool Steel
It is a pre-alloyed tool steel powder designed for tooling applications. This widely used tooling steel is characterized by high strength, excellent toughness, good machinability, and reliable thermal fatigue resistance, ensuring long service life and dimensional stability in plastic moulding operations
cobalt-chrome alloy
An ingenious mixture of pre-alloyed powders to print parts in a cobalt-chrome-molybdenum superalloy. This type of superalloy has very good mechanical properties (strength, hardness, etc.), corrosion resistance and heat resistance.
Trusted by Industry Leaders
We see this as a long-term investment. The combination of medical expertise, open technology, and scalability gives us the confidence to innovate for the future.
SRT provided clear technical guidance, timely responses, and practical demonstrations during the evaluation phase, which helped us make an informed and confident decision in selecting the solution.
FAQ
Resin-based 3D printers offer ultra-high resolution that captures fine details required for intricate jewellery patterns and casting masters.
Yes. It simplifies casting workflows by producing clean-burnout patterns that ensure high-quality metal casting with zero ash residue.
Yes. 3D printing allows designers to easily customize patterns and create unique designs without needing new molds.
Castable and non-castable resins are available, designed for both investment casting and direct design visualization.
Digital workflows eliminate hand carving and mold-making—helping jewellers deliver finished products in days instead of weeks.