LB Non-Nitrosamine Accelerator: The Eco-Friendly ZDEC Alternative for Latex Products
LB is a non-nitrosamine, ultra-fast rubber accelerator developed as an environmentally friendly substitute for ZDEC. With comparable vulcanizing activity to ZDEC, excellent latex stability, and zero nitrosamine risk, it is the ideal choice for medical, consumer, and foam latex product manufacturers looking to meet increasingly stringent global safety regulations.
The Nitrosamine Problem in Rubber Manufacturing
Nitrosamines are chemical compounds classified as probable human carcinogens by the International Agency for Research on Cancer (IARC). In rubber manufacturing, nitrosamines can form during vulcanization when secondary amine-based accelerators (such as ZDEC, ZDBC, and TMTD) react with nitrogen oxides present in the curing atmosphere.
How Nitrosamines Form During Vulcanization
The chemical pathway is well-understood:
Secondary amine accelerator (R₂NH)
+ NOx (from curing atmosphere)
→ N-nitrosamine (R₂N-N=O) [carcinogenic]
ZDEC uses diethylamine (a secondary amine) as its building block, which means nitrosamine formation is chemically unavoidable when ZDEC is used in standard vulcanization conditions. LB was specifically developed to break this pathway while maintaining equal vulcanization performance.
The Regulatory Landscape
| Region | Regulation | Impact on Accelerator Use | Timeline |
|---|---|---|---|
| European Union | REACH / EU 2018/848 | Strict nitrosamine limits in rubber products, especially baby care and medical | Active |
| Germany | TRGS 552 | Nitrosamine exposure limits in workplace environments (0.5 μg/m³ for certain NAs) | Active |
| United States | FDA 21 CFR 177.2600 / OSHA | Increasing scrutiny on nitrosamine-forming substances in food-contact rubber | Evolving |
| China | GB 4806.11-2016 | Growing alignment with international food contact safety norms | Evolving |
| Japan | Food Sanitation Law | Strict limits on nitrosamines in baby products | Active |
| Southeast Asia | ASEAN Cosmetic Directive | Following EU regulatory trends for consumer goods | Evolving |
| Middle East | GSO standards | Increasing adoption of EU-based standards | Emerging |
Why Nitrosamine Risk Matters to Your Business
- Medical products — Surgical gloves, catheters, and tubing must meet strict nitrosamine limits for CE marking and FDA approval
- Consumer products — Balloons, baby bottle nipples, toys, and household goods face increasing scrutiny globally
- Export compliance — Without nitrosamine-free certification, EU and Japanese market access is restricted
- Brand reputation — Eco-conscious buyers increasingly demand non-toxic manufacturing processes
- Worker safety — Nitrosamine exposure limits in factories are becoming stricter worldwide
- Cost of switching later — Regulations will only tighten; switching now avoids future rushed reformulation
Introducing LB: ZDEC Performance Without Nitrosamine Risk
LB is a specially formulated ultra-fast accelerator designed to replace ZDEC in latex applications while eliminating nitrosamine formation during vulcanization. Developed by experienced rubber chemists, LB delivers the same processing and performance characteristics that manufacturers rely on from ZDEC — without the regulatory baggage.
How LB Works
LB achieves its non-nitrosamine profile through a carefully designed chemical structure that avoids secondary amine groups. When LB participates in the vulcanization reaction, it accelerates sulfur cross-linking through the same mechanism as ZDEC — activating the sulfur molecule and facilitating its reaction with rubber polymer chains — but without producing carcinogenic nitrosamine byproducts.
Product Specifications
| Parameter | Specification | Notes |
|---|---|---|
| Product name | LB | Environmentally friendly accelerator |
| Product form | White powder | Non-dusting / granulated form available on request |
| Initial melting point | ≥ 150°C | Good processing safety margin |
| Zinc content | 13.0% – 15.0% | Optimized for balanced cure activity |
| Heating loss | ≤ 0.3% | Low moisture, consistent batch quality |
| Solubility | Insoluble in water | Forms stable dispersion in latex |
| Packaging | 25 kg kraft paper bag | Custom packaging (drums, big bags) available |
| Shelf life | 24 months (cool, dry storage) | Excellent storage stability |
| HS Code | 3812100000 | Rubber compounding preparations |
Key Performance Advantages
| Feature | LB | ZDEC | Benefit for Manufacturer |
|---|---|---|---|
| Nitrosamine formation | ✅ ZERO | ❌ High risk (uses secondary amine) | Safer for workers and end users |
| Cure activity | ✅ Equivalent | ✅ Standard | No formulation re-engineering needed |
| Latex stability | ✅ Excellent — less impact | ✅ Good | Extended pot life, fewer rejects |
| Discoloration | ✅ Non-staining, non-fading | ❌ May discolor | Perfect for white and transparent goods |
| Odor | ✅ Odorless | ✅ Odorless | Pleasant working environment |
| Toxicity profile | ✅ Non-toxic | ✅ Low toxicity | Safer handling and storage |
| Dispersibility | ✅ Excellent in latex | ✅ Good | Uniform cure throughout the product |
| Environmental profile | ✅ Eco-friendly | ❌ Nitrosamine concerns | Future-proof your product line |
| Regulatory compliance | ✅ Future-proof | ❌ Increasing restrictions | Access to EU, Japan markets |
Recommended Formulations
1. Latex Dipping — Medical Gloves
| Ingredient | Parts (phr) | Function |
|---|---|---|
| Natural rubber latex (60%) | 100.0 | Base polymer |
| LB accelerator | 0.5 – 1.0 | Primary accelerator |
| Sulfur | 1.0 – 1.5 | Cross-linking agent |
| Zinc oxide | 0.5 – 1.0 | Activator |
| Potassium hydroxide | 0.2 – 0.5 | Latex stabilizer |
| Ammonia (as NH₃) | 0.3 – 0.6 | Preservative |
| Antioxidant (e.g., WingStay L) | 0.5 – 1.0 | Aging protection |
Processing conditions:
- Pre-vulcanization: 70–80°C for 30–60 minutes
- Dipping: Room temperature or slightly warm
- Curing: 100–120°C for 10–20 minutes
2. Latex Foam — Mattresses and Pillows
| Ingredient | Parts (phr) | Function |
|---|---|---|
| Natural rubber latex (60%) | 100.0 | Base polymer |
| LB accelerator | 0.5 – 1.0 | Primary accelerator |
| Sulfur | 1.5 – 2.0 | Cross-linking agent |
| Zinc oxide | 1.0 – 2.0 | Activator |
| Sodium silicofluoride | 0.8 – 1.5 | Gelling agent |
| Soap / foaming agent | 1.0 – 3.0 | Foam stabilizer |
| Antioxidant | 0.5 – 1.0 | Aging protection |
Processing conditions:
- Foaming: Mechanical frothing
- Gelling: 30–50°C
- Curing: 100–130°C for 20–40 minutes
3. Self-Adhesive Tapes
| Ingredient | Parts (phr) | Function |
|---|---|---|
| Natural or synthetic latex | 100.0 | Base polymer |
| LB accelerator | 0.3 – 0.8 | Primary accelerator |
| Sulfur | 1.0 – 1.5 | Cross-linking agent |
| Zinc oxide | 0.5 – 1.0 | Activator |
| Tackifier resin dispersion | 5.0 – 20.0 | Adhesion enhancement |
4. Condoms and Thin-Wall Dipped Goods
| Ingredient | Parts (phr) | Function |
|---|---|---|
| Natural rubber latex (60%) | 100.0 | Base polymer |
| LB accelerator | 0.3 – 0.8 | Primary accelerator |
| Sulfur | 0.8 – 1.2 | Cross-linking agent |
| Zinc oxide | 0.3 – 0.7 | Activator |
Note: Lower accelerator loading for thin-wall products ensures optimal film formation and mechanical properties.
Applications: Where LB Shines
1. Medical Grade Latex Products
- Surgical gloves — High-frequency dipping with consistent cure, nitrosamine-free for CE marking
- Medical tubing — Thin-wall extrusion with uniform vulcanization
- Catheters and drainage bags — Nitrosamine-safe for sensitive medical applications
- Medical plasters and tapes — Skin-safe, non-irritating adhesive systems
2. Consumer Latex Goods
- Balloons — Bright colors without discoloration, non-fading, odorless
- Baby products — Pacifiers, bottle nipples (must be nitrosamine-safe for infant safety)
- Household gloves — Comfortable, durable, safe for food contact
- Bathing caps — Flexible, non-staining
3. Latex Foam Products
- Mattresses and pillows — Open-cell structure with consistent cure, odorless
- Foam cushioning — Automotive and furniture applications
- Soundproofing materials — Reliable long-term performance
- Shoe insoles — Comfortable, durable foam
4. Self-Adhesive Products
- Tapes and labels — Uniform cure for consistent adhesion properties
- Medical plasters — Skin-safe adhesive systems
- Industrial adhesive films — Reliable bond strength in demanding environments
5. Transparent and Light-Colored Products
- Translucent tubing — Clear, non-yellowing finish over product lifetime
- White rubber bands — No staining or discoloration during storage
- Colored latex articles — True color retention without accelerator-related fading
- Fashion accessories — Jewelry, watch straps requiring aesthetic quality
6. Industrial Applications
- Gaskets and seals — Reliable compression set performance
- Rubberized fabrics — Uniform coating and cure
- Conveyor belt covers — Good abrasion resistance when compounded properly
Processing Guidelines
Storage Conditions
| Condition | Requirement | Impact of Non-Compliance |
|---|---|---|
| Temperature | Below 30°C | Caking and reduced dispersibility above 30°C |
| Humidity | Below 60% RH | Moisture absorption reduces flow properties |
| Packaging | Keep sealed when not in use | Contamination and moisture ingress |
| Shelf life | 24 months from production date | Beyond 24 months, test before use |
Mixing Instructions
For latex compounds:
- Pre-dispersion preparation: Prepare a 10–20% aqueous dispersion of LB for easier dosing into latex
- Ball milling: Mill for 4–6 hours to achieve optimal particle size (typically < 10 μm)
- Latex addition: Add slowly with gentle stirring to avoid localized coagulation
- Curing: Standard latex curing cycles apply — LB behaves similarly to ZDEC
For dry rubber compounds:
- Mixing order: Add LB early in the mixing cycle (alongside activators, before sulfur)
- Two-roll mill: Band rubber, add LB, ensure uniform dispersion
- Internal mixer: 70–100°C, 3–5 minutes mixing time is typically sufficient
Compatible Systems
- Natural rubber latex — Excellent compatibility — primary application
- Synthetic latex (SBR, NBR, CR) — Good compatibility, test for specific systems
- Thiazole accelerators (MBT, MBTS, ZMBT) — Excellent synergistic activation
- Sulfenamide accelerators (CBS, TBBS) — Good activating effect
- Sulfur donors — Fully compatible with standard sulfur curing systems
- Zinc oxide — Standard activator compatibility
Technical Comparison: LB vs Common Accelerators
| Accelerator | Cure Speed | Nitrosamine Risk | Latex Stability | Discoloration | Best For |
|---|---|---|---|---|---|
| LB | Ultra-fast | ✅ ZERO | ✅ Excellent | ✅ None | Medical, consumer, foam latex |
| ZDEC | Ultra-fast | ❌ High | ✅ Good | ⚠️ May stain | General latex (if nitrosamine not an issue) |
| ZDBC | Ultra-fast | ❌ High | ✅ Good | ⚠️ May stain | Tire, industrial rubber |
| ZMBT | Fast | ⚠️ Low | ✅ Good | ✅ None | Latex foam, dipped goods |
| TMTD | Ultra-fast | ❌ Very high | ❌ Poor stability | ⚠️ May stain | NR/SBR, increasingly restricted |
| TBzTD | Fast | ⚠️ Very low | ✅ Good | ✅ Low | Non-nitrosamine alternative to TMTD |
| DPG | Slow | ⚠️ Low | ❌ Not for latex | ✅ None | Secondary accelerator for dry rubber |
Market Trends and Industry Outlook (2025–2026)
1. Nitrosamine Regulations Tightening Worldwide
The regulatory trend is clear and accelerating. The European Chemicals Agency (ECHA) has been reviewing nitrosamine-forming substances under REACH, and similar reviews are underway in North America and Asia. Manufacturers who switch to non-nitrosamine accelerators now will be ahead of regulatory curves rather than scrambling to reformulate under deadline pressure.
2. Medical Glove Market Remains Strong
Post-pandemic, the medical glove market has stabilized at a higher baseline than pre-2020 levels. Annual global demand for examination and surgical gloves remains above 300 billion pairs. Each glove requires accelerators in its formulation — creating sustained demand for nitrosamine-safe options.
3. Consumer Awareness Driving Change
End consumers are increasingly aware of chemical safety in everyday products. The "clean label" trend that transformed the food industry is now reaching consumer goods, including rubber products that come into contact with skin or food.
4. Latex Foam Demand Growing
The mattress industry's shift toward natural latex foam (driven by demand for organic and eco-friendly bedding) is creating new demand for latex-compatible accelerators. LB is ideally positioned for this segment.
5. Sustainable Manufacturing
Rubber product manufacturers are under pressure to document and reduce the environmental impact of their supply chains. Switching to non-nitrosamine accelerators is a concrete, measurable improvement that manufacturers can communicate to their customers.
Frequently Asked Questions
Performance & Compatibility
Q: How does LB compare to ZDEC in cure speed?
A: LB provides equivalent vulcanizing activity to ZDEC under the same conditions. In most formulations, it can be used as a direct drop-in replacement without adjusting cure time, temperature, or other parameters. We recommend initial lab testing with a small batch to confirm compatibility in your specific formulation.
Q: Do I need to change my formulation when switching from ZDEC to LB?
A: In most cases, the answer is no — LB is designed as a direct replacement at the same dosage levels. However, every formulation is unique, and we recommend starting with a lab trial before full-scale production. Our technical team can provide guidance based on your specific compound.
Q: Can LB be used as a secondary accelerator with other accelerators?
A: Yes. LB is an excellent activator for thiazole accelerators (MBT, MBTS, ZMBT) and sulfenamide accelerators (CBS, TBBS). This synergistic effect can improve overall cure characteristics and reduce total accelerator loading.
Q: Is LB compatible with all types of rubber?
A: LB is primarily designed for natural rubber latex and synthetic latex systems (SBR, NBR, CR). Its performance in dry rubber compounds is also good. For unusual or highly specialized polymer systems, we recommend testing first.
Safety & Regulatory
Q: Does LB produce ANY nitrosamines during vulcanization?
A: No. LB is formulated specifically to avoid nitrosamine formation. Standard analytical testing methods (according to EN 12868 and similar standards) confirm zero detectable nitrosamines from LB under normal vulcanization conditions.
Q: Is LB safe for medical-grade products?
A: Yes. LB is non-toxic and non-nitrosamine-forming, making it suitable for surgical gloves, catheters, condoms, and other medical latex products that must meet strict safety standards.
Q: Is LB REACH-registered for EU import?
A: Yes. REACH-compliant LB is available from Rayway Chemical. Contact us for the current registration number and compliance documentation.
Q: Is LB RoHS compliant?
A: Yes. LB is manufactured using heavy-metal-free raw materials and is fully RoHS compliant.
Processing & Handling
Q: Does LB cause discoloration in white or transparent products?
A: No. LB is non-discoloring and non-staining, making it ideal for white, bright-colored, and transparent latex goods. Products maintain their original color throughout their service life.
Q: What is LB's impact on latex stability?
A: LB actually exerts less impact on latex stability compared to ZDEC. This means longer pot life and fewer rejects due to premature coagulation.
Q: What is the best way to disperse LB in latex?
A: For latex applications, we recommend preparing a 10–20% pre-dispersion using a ball mill for 4–6 hours. The dispersion can then be added to latex with gentle stirring.
Q: What is the recommended storage temperature?
A: Store below 30°C in a dry environment. Avoid direct sunlight and high humidity. Under proper conditions, LB has a shelf life of 24 months.
Sourcing & Logistics
Q: What is the minimum order quantity for LB?
A: We offer flexible quantities starting from 25 kg (trial/sample) up to full container loads (15–18 MT per 20 ft container).
Q: Can I get a free sample?
A: Yes, free samples are available for qualified buyers. Shipping charges apply. Contact us with your requirements and we will arrange sample shipment.
Q: How long does shipping take?
A: Typical lead times: samples 3–5 days, trial orders 7–14 days, container orders 14–25 days depending on production schedule.
Q: Can I combine LB with other accelerators in a single order?
A: Yes. Rayway Chemical supplies LB alongside ZDEC, ZDBC, ZMBT, TMTD, TBzTD, CBS, and other accelerators. Combined orders often receive better pricing and save on shipping costs.
LB vs ZDEC Cost-Benefit Analysis
| Factor | ZDEC | LB |
|---|---|---|
| Price per kg | Standard | Competitive — comparable |
| Regulatory risk cost | High — potential compliance costs | ✅ Zero — future-proof |
| Market access | Restricted for EU medical/consumer goods | ✅ Full access |
| Customer rejection risk | Increasing | ✅ Decreasing |
| Formulation change cost | N/A | ✅ Minimal — drop-in replacement |
| Brand value | Neutral | ✅ Positive — eco-friendly positioning |
| Long-term availability | Likely | ✅ Strong — growing demand |
Quick Reference: LB Technical Data
| Parameter | Value |
|---|---|
| Product name | LB |
| Product form | White powder |
| Initial melting point | ≥ 150°C |
| Zinc content | 13.0% – 15.0% |
| Heating loss | ≤ 0.3% |
| General dosage | 0.5 – 1.0 phr |
| Cure speed | Ultra-fast (same as ZDEC) |
| Nitrosamine | ✅ Zero |
| Packaging | 25 kg kraft paper bag |
| Shelf life | 24 months |
| HS Code | 3812100000 |
| Supplier | Qingdao Rayway Chemical Co., Ltd. |
From Our Technical Team
"When we developed LB, our goal was simple: give the latex industry a product that works exactly like ZDEC but eliminates the nitrosamine problem entirely. The response from manufacturers — especially those exporting medical and consumer goods to Europe — has been overwhelmingly positive. We've seen customers in Germany, France, and Southeast Asia successfully replace ZDEC with LB without any production disruptions."
— Rayway Chemical R&D Team
Where to Buy LB Non-Nitrosamine Accelerator
Rayway Chemical offers LB accelerator with full technical support, free samples, and flexible packaging from trial quantities to full container loads.
How to Get Started
| Step | What to Do | Timeline |
|---|---|---|
| 1 | 📧 Contact us with your product requirements and target application | Day 1 |
| 2 | Receive product documentation (TDS, SDS, COA) | Day 1–2 |
| 3 | Request a free sample (shipping applies) | Day 2–3 |
| 4 | Test LB in your compound with our technical guidance | Day 7–14 |
| 5 | Place trial or production order | Day 14+ |
Contact Information
| Detail | Information |
|---|---|
| Company | Qingdao Rayway Chemical Co., Ltd. |
| Address | Room 2101, New World Building, Fuzhou South Road, Shinan District, Qingdao City, Shandong Province, 266001, China |
| Experience | 21+ years in rubber chemicals |
| Certifications | ISO 9001, REACH (EU), SGS testing available |
| Website | raywaychem.com |
| Contact | raywaychem.com/contact/ |
Last updated: May 2026. Specifications are based on standard production batches. Contact Rayway Chemical for current documentation, pricing, and technical support. This article is for informational purposes and does not constitute a warranty or guarantee of product performance in specific applications.
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