Your Factory-Direct Jewelry
Manufacturing Partner
You need more than jewelry—you need a 20+ years experienced jewelry supplier & partner to build your local brand and boost profits. Let Fuse Team drive your business success!
- 24H Designs · 1-Day Samples | Scale with Fuse
- 20years jewelry production experience
- 50+production line
- 30000+sKU,2000000+units in stock
- 24-hour shipping for in-stock items
- certificated quality and authenticity
Types/Categories of Jewelry Products
"With decades of jewelry industry expertise, we've built a full-spectrum product portfolio offering cross-category coverage, flexible specifications, and bespoke customization. Through our supply chain excellence, we enable global B2B partners to execute streamlined, tailored procurement efficiently."
Covering a diverse range of : Gold, Gems, Diamonds, Lab-Grown & More
Material Essence
International Standard: Contains ≥92.5% silver (remainder: copper, zinc, etc.), complying with ISO 9202 Jewellery - Fineness of Silver Alloys.
Technological Advantages:
Hardness Boost: S925 is alloyed to reach HV 60-80 hardness (vs. soft 999 silver), enabling intricate settings (e.g., micro-pave diamonds, hollow carvings).
Oxidation Resistance: Copper alloy slows sulfuration, cutting tarnishing speed by 40% and reducing upkeep costs.
Commercial Value
Cost-Effective: Costs 1/8 of 18K gold but mimics platinum’s sheen (≥85% glossiness), ideal for mid-tier hit products.
Process Versatility:
Gunmetal Black Finish: Oxidation creates a vintage dark hue, perfect for Gothic/edgy designs.
Nano-Coating: PVD tech raises surface hardness to HV 1200, triples scratch resistance, and prolongs jewelry lifespan.
Material Essence
Purity:
999 Pure Silver: ≥99.9% silver
990 Pure Silver: ≥99.0% silver (GB 11887-2012)
Cultural Traits:
Craft Legacy: Works with ancient techniques (chasing, filigree) for "Guochao" brands.
Oxidation Allure: Natural tarnish forms a "vintage silver" tone, ideal for tea/incense accessories.
Commercial Edge
Affordable Luxury: Budget-friendly gifts with cultural depth.
Innovations:
Nano-Coating: Silica layer slows tarnish 3x longer.
3D Printing: Creates 0.3mm-thin designs for lightweight jewelry.
Material Essence
Purity Grading:
18K ≥75.0% High-end gemstone settings, wedding/bridal jewelry, red-carpet accessories
14K ≥58.3% Daily-wear jewelry in Western markets, trendy brand collaborations
10K ≥41.7% Sports-themed jewelry, industrial-style accessories
Technological Breakthroughs:
Color Revolution: By adjusting alloy ratios (silver, copper, zinc, etc.), over 20 color variations are achieved, including rose gold (≥25% copper) and white gold (palladium/nickel alloys).
Performance Enhancement: 18K gold reaches HV 120-150 hardness (3x that of pure gold), enabling intricate settings like micro-pave and claw-prong techniques, with 50% improved gemstone retention.
Commercial Value
Market Positioning:
18K Gold: Ideal for high-margin segments like luxury bespoke jewelry and auction-grade pieces.
14K Gold: Targets fast-fashion brands (e.g., integrated into Pandora’s supply chain).
Process Innovations:
3D Hard Gold Technology: Electroforming increases density, reducing weight by 30% for the same volume.
Eco-Friendly Plating: Cyanide-free electroplating minimizes heavy metal pollution, meeting ESG procurement standards.
Monatomic Gems
Definition:
Natural gems composed of a single element, with atoms arranged in a specific crystal structure.
Examples
Diamond:
Its chemical composition is carbon (C), making it the hardest substance in nature. It forms when carbon atoms crystallize under the high - temperature and high - pressure conditions deep within the Earth. Diamonds are frequently used to craft high - end jewelry, symbolizing eternity and preciousness. For instance, the classic round brilliant - cut diamond ring is a highly sought - after piece of jewelry for weddings and important occasions.
Rutile:
Its main chemical component is titanium dioxide (TiO₂), though there is also a rutile variety composed of pure titanium (Ti), which is a special case among monatomic gems. It comes in a variety of colors, such as red, brown, and black, and holds a certain value in the gem - collecting field.
Compound Gems
Definition:
Natural gems formed by the chemical bonding of two or more elements. The combination and proportion of different elements determine the physical and chemical properties of the gems.
Examples
Corundum:
Its chemical composition is aluminum oxide (Al₂O₃). When it contains trace amounts of chromium (Cr) elements, it exhibits a vivid red color and is known as ruby; when it contains elements like iron (Fe) and titanium (Ti), it displays colors ranging from blue to various shades of blue and is called sapphire. Both rubies and sapphires are extremely precious gems and are often used to make high - end necklaces, earrings, and other jewelry.
Emerald:
Its chemical composition is beryllium aluminum silicate (Be₃Al₂[Si₆O₁₈]). It acquires its beautiful green color due to the presence of trace amounts of chromium (Cr) or vanadium (V) elements. As the king of green gems, it is renowned for its bright green hue and rarity, often fetching extremely high prices at jewelry auctions.
Animal Sources
Pearl
Formation: When foreign objects (such as sand grains, parasites, etc.) enter the body of a bivalve, the bivalve secretes nacre to wrap them layer by layer. Over a long period, a pearl is formed. For instance, in the cultivation of seawater pearls, a nucleus is implanted into the body of a pearl oyster to stimulate the secretion of nacre, resulting in the formation of round pearls.
Composition: The main components are calcium carbonate (approximately 91.7%), organic matter (about 5.2%), and water (around 3.1%). The organic matter is mainly keratin and the like.
Characteristics: Pearls have a soft luster and come in a variety of colors, including white, pink, black, etc. They are commonly made into necklaces, earrings, and other jewelry pieces and are also used as raw materials for cosmetics.
Coral
Formation: Coral is formed by the continuous secretion of calcium carbonate skeletons by coral polyps, a type of coelenterate. In suitable marine environments, these skeletons gradually accumulate to form coral reefs or coral branches.
Composition: The main component is also calcium carbonate, with a small amount of organic matter and trace elements.
Characteristics: Coral has bright colors, such as red, pink, white, etc. It has a dense texture and moderate hardness. It is often carved into various handicrafts or made into jewelry, like coral bracelets and coral ornaments. However, over-exploitation has caused damage to the marine ecosystem, and many coral species are under protection.
Plant Sources
Amber
Formation: Similar to the general description above, amber is formed when resin from ancient coniferous and other plants drips and then undergoes a long geological process of petrification underground.
Composition: It mainly consists of organic substances such as resin acids and resinols and contains succinic acid and other components. The composition may vary slightly depending on the place of origin.
Characteristics: Amber has rich colors, including yellow, orange, red, etc. It has a range of transparencies and often encases insects or plant fragments inside. It has high scientific research and collection value and is commonly made into various ornaments and handicrafts.
Jet
Formation: Jet is a black organic gemstone formed through a long process of coalification under high - pressure and low - temperature conditions in the subsurface from the remains of ancient coniferous and other plants.
Composition: The main component is carbon, with hydrogen, oxygen, nitrogen, and other elements. It has a relatively high content of organic matter.
Characteristics: Jet has a glossy black appearance, a delicate texture, and moderate hardness. It is easy to carve and is often carved into smoking pipes, seals, ornaments, and other handicrafts. It was widely used in history.
Melt-Method Synthetic Gems
Principle:
Raw materials are melted into a liquid at high temperatures and then cooled and crystallized under specific conditions to replicate the formation of natural gems in molten environments.
Examples
Synthetic Sapphire: Composed primarily of alumina with colorants like chromium oxide (for red) or iron oxide (for yellow), it is melted at around 2050°C. Using processes such as the Czochralski or Verneuil method, large-sized crystals can be generated. These crystals exhibit uniform color, high transparency, but may contain bubbles or inclusions in some cases.
Synthetic Ruby: Also based on alumina with added chromium oxide, it is melted in a hydrogen-oxygen flame and crystallized on a seed crystal. Small to medium-sized crystals suitable for jewelry or laser materials are produced.
Melt-Method Synthetic Zircon: Zirconia is the main component of zircon. By melting zirconia and other raw materials at high temperatures and then controlling the cooling and crystallization conditions, transparent synthetic zircons with diverse colors can be obtained. Their hardness and luster are close to those of natural diamonds, making them common diamond simulants. However, internal features such as tiny bubbles or growth striations may occur during the synthesis process.
Hydrothermal-Solution Synthetic Gems
Principle:
Raw materials are dissolved in a solution, and by adjusting the temperature, concentration, and pH value to make the solution supersaturated, crystals are prompted to grow, simulating the formation of natural gems in solution environments.
Examples
Synthetic Emerald: Beryllium aluminum silicate is dissolved in a solution containing beryllium, aluminum, etc., and grown in a hydrothermal autoclave at 500–600°C and 1000–2000 atmospheres. Large-sized, vividly colored emeralds can be produced, but they may contain gas-liquid or nail-shaped inclusions.
Synthetic Aquamarine: Grown in a similar hydrothermal solution, it features high transparency and pure color, possibly with parallel tubular inclusions.
Theoretical Hydrothermal-Solution Synthetic Moissanite (Though mainly synthesized via chemical vapor deposition in practice, included here for classification illustration): If we were to imagine, from a theoretical perspective, simulating the formation of natural moissanite (silicon carbide) in a specific geological solution environment, compounds containing silicon and carbon would be dissolved in a specific solution and crystallized under precisely controlled solution conditions. However, in actual practice, moissanite is commonly synthesized via chemical vapor deposition, where gases containing carbon and silicon are decomposed at high temperatures, allowing silicon carbide to deposit and grow on a substrate. Synthetic moissanite boasts extremely high hardness and refractive index, with a fire that outshines diamonds, often serving as a premium diamond substitute. It may have subtle structural features resulting from the growth process.
Imitation Gems
Principle
Materials resembling natural gems in appearance but with different compositions and structures are processed to mimic the color, luster, and transparency of natural gems.
Examples
Glass Imitation Gems: Made from quartz sand, soda ash, etc., melted in a furnace and processed via casting, blowing, or wire drawing. They offer rich colors, ease of processing, and low cost, but suffer from low hardness, susceptibility to wear, and a dull luster. They are often used to imitate diamonds, yet their fire and hardness differ significantly from diamonds, allowing for easy differentiation through simple observation and testing.
Plastic Imitation Gems: Resin-based with pigments and fillers, processed via injection molding or calendering. Lightweight, brightly colored, and malleable, they are commonly used for inexpensive jewelry but exhibit poor heat resistance, aging-proneness, and an unnatural luster, setting them apart from diamonds in terms of texture.
Zircon Imitation Diamonds: Natural zircon itself possesses a certain luster and transparency, while synthetic zircon has become a common diamond simulant. It features a relatively high refractive index and dispersion, closely resembling diamonds in appearance. However, zircon has a lower hardness than diamonds, making it prone to surface scratches over time. Additionally, zircon has a higher specific gravity, feeling heavier than diamonds of the same volume.
Moissanite Imitation Diamonds: Synthetic moissanite is a highly popular diamond simulant in recent years. With a hardness of 9.25 (compared to 10 for diamonds), it surpasses diamonds in both refractive index and dispersion, resulting in an extremely brilliant fire that even outshines diamonds. Nevertheless, moissanite has a relatively high birefringence. When observed under a magnifying glass at the pavilion facets, double images may appear, while diamonds, being single-refractive gems, do not exhibit this phenomenon.
Assembled Gems
Principle
Two or more materials (natural gems, synthetic gems, or imitation gems) are joined by gluing or other methods to form a gemstone-like appearance, enhancing the aesthetic appeal or value of the stone.
Examples
Doublets: May consist of a thin slice of natural gemstone on top and a layer of synthetic zircon or moissanite on the bottom. For instance, a thin layer of natural colored gemstone could serve as the top decoration, with synthetic zircon or moissanite added beneath to increase the size and fire effect of the gemstone. Bubbles or glue traces may be present at the joints, detectable via magnification or instruments.
Triplets: An additional reflective metal foil layer is inserted in the middle layer to further enhance the brightness and fire of the gemstone. For example, a natural gemstone thin slice, a metal foil layer, and a synthetic moissanite layer could be assembled together to create a luxurious-looking jewelry gemstone.
Reconstituted Gems
Principle
Fragments or powders of natural gems or synthetic gems are re-bonded via high-temperature/high-pressure processes or gluing to improve material utilization and value.
Examples
Reconstituted Zircon: Zircon fragments or powders are mixed with adhesive, pressed, and polished to form reconstituted zircon. It features uniform color and a fine texture but has a looser structure, lower density, and may contain glue traces or pores, distinguishable from natural zircon through testing.
Hypothetical Reconstituted Moissanite-like Material (Assuming a Scenario): If there were a future demand, broken edges or substandard products from the synthetic moissanite production process could be crushed and re-pressed using specific techniques. However, currently, moissanite is mainly used in jewelry in the form of complete crystals, with reconstituted cases being relatively rare.
What Makes Us Your ldeal Partner
Discover why leading jewelry businesses worldwide choose us as their trusted manufacturing partner.
Factory Advantage
5 dedicated production lines = consistent quality & timely delivery
No supply chain disruptions for your business.
Product Expertise
Specialized in silver jewelry with premium stones (D color, VVS clarity)
High-quality products your customers will love and return for.
Global Experience
Regular exports to North America, Europe, Australia & Singapore
We understand international standards and shipping requirements.
B2B Focus
Tailored for jewelry brands, distributors & retailers
We speak your business language and understand your needs.
workshop of plant
Working With Us is Working On Profit
Startup Brands
Startup brands innovate, create, and bring fresh ideas to life with passion.
Wholesalers
Wholesalers ensure smooth goods flow, timely availability in the supply chain.
E-commerce
E-commerce brings global products right to you, anytime with a few clicks.
Retail Stores
Retail stores are vital hubs of community commerce, blending neighborliness with discovery.
Why Partner With Our Manufacturing Facility
Discover why leading brands choose us for premium jewelry manufacturing
Stable Supply
Global partnerships ensure raw material continuity; automated systems + artisans adapt to demand. Dual storage and logistics guarantee orders, eliminating stock-outs.
Eliminate stock-outs; focus on growth.
Rapid Bulk Delivery
15–20-day lead times (vs. 30+ avg.) with 72-hour scheduling and AI-driven precision (error rate <0.3%). VIP orders in 10 days, accelerating cash flow.
Faster turnover, quicker capital recovery.
Customization
20+ patents (e.g., micro-pavé) turn sketches into 3D models. Low MOQ (30 pieces) reduces risk, enabling unique designs.
Differentiate your brand; boost margins.
One-Stop Sourcing
Source gold, silver, stones, and lab diamonds here. Save 30% via bulk discounts + centralized shipping; unified quality simplifies procurement.
Simplify procurement; focus on core business.
Free Samples
First-time clients get 3 free samples (no design fees) + shipping. Quick revisions and 3D models/reports for risk-free testing.
Zero-cost validation; lower collaboration barriers.
Worry-Free After-Sales
30-day returns for non-custom items. We cover rework costs and buy back slow-moving stock, cutting post-sale risks.
Reduce post-sale risks; grow confidently.
authentication certificate
Ready to Transform Your Jewelry Business?
Connect with our manufacturing team today to discuss your wholesale jewelry needs and discover how we can help scale your brand.
You Get Vision and Ideas Fulfillment
You have full control over the customization of your jewelry, while receiving expert advice to get the right custom jewelry for your target market.
You Profit From Exquisite Fabrication
fusejewelry has more than 15 fully equipped workshops. We also have experienced and professional workers who follow SOP that comply with global standards.
You Have Quality and Feature Assurance
Dedicated QC teams go through our jewelry production floor to conduct strict manual inspections including all raw materials screening process and verifying quality certificates.
You Receive Stable and Credible Supply
We utilize sustainable silver for long-term raw materials. These eco-friendly ingredients allow fusejewelry to reduce our carbon footprint and maximize the durability of our jewelry.
You Get Vision and Ideas Fulfillment
You have full control over the customization of your jewelry, while receiving expert advice to get the right custom jewelry for your target market.
You Profit From Exquisite Fabrication
fusejewelry has more than 15 fully equipped workshops. We also have experienced and professional workers who follow SOP that comply with global standards.
You Have Quality and Feature Assurance
Dedicated QC teams go through our jewelry production floor to conduct strict manual inspections including all raw materials screening process and verifying quality certificates.
You Receive Stable and Credible Supply
We utilize sustainable silver for long-term raw materials. These eco-friendly ingredients allow fusejewelry to reduce our carbon footprint and maximize the durability of our jewelry.
How We Deliver Premium Quality at Factory-Direct Prices
From Raw Materials to Finished Collections:
Our Production Excellence
Production Capabilities
- 5 Dedicated Production Lines
- In-house silver casting, stone setting, and finishing
- Production capacity of 30,000+ pieces monthly
Quality Control System
- Triple-inspection protocol
- D Color, VVS Clarity standard
- Material certification
- XRF metal testing for 925 silver purity
Customization Process
- Design consultation
- Prototype development (7-10 days)
- Sample approval process
- Modifications and adjustments
Global Logistics Solutions
- Established shipping channels
- Full documentation
Quality Inspection
- Our technicians perform rigorous qualitychecks at every stage
Production Flow
- Streamlined process from desian to finished product
Craftsmanship Detail
- Expert artisans ensuring perfect finishing on every piece
ISO 9001 Certified
Global Shipping Partners
Quality Assurance Guarantee
"Fuse Jewelry's production process delivers exactly what we need - consistent quality with excellentattention to detail. Their ability to customize designs while maintaining rapid production times has beeninstrumental to our growth."
Jonathan Miller, Purchasing Director
ElegantGems Canada
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Weave Dreams Witness Quality
Brand Story
Our design philosophy comes from a deep understanding of life. We believe every detail has the power to change the world. We aim to infuse this power into each product, letting users feel our brand’s warmth and care. This philosophy guides us and sets us apart in a competitive market.
Corporate Strength
We strictly control quality from raw materials to finished products, earning customer trust. Our expert R&D team innovates, bringing new products that highlight our technical strength and energize the industry.
Weave Dreams Witness Quality
Brand Story
Our design philosophy comes from a deep understanding of life. We believe every detail has the power to change the world. We aim to infuse this power into each product, letting users feel our brand’s warmth and care. This philosophy guides us and sets us apart in a competitive market.
Corporate Strength
We strictly control quality from raw materials to finished products, earning customer trust. Our expert R&D team innovates, bringing new products that highlight our technical strength and energize the industry.
