Overview
Silicone oils — linear or cyclic polysiloxanes with a siloxane backbone (–Si–O–Si–O–) and methyl, hydrogen, or organofunctional side groups — are the workhorse fluids of cosmetic, textile, silicone rubber, automotive, and coating formulation. The property combination has no organic equivalent:
- Thermal stability — most grades −50°C to +200°C continuous; phenyl-modified to +300°C
- Surface activity — low surface tension (20–22 mN/m for PDMS) enables wetting, slip, defoaming
- Chemical inertness — siloxane backbone unreactive to acids / bases / oxidants; side groups can be functionalised
- Biocompatibility — low irritation; many grades FDA-approved for cosmetics
- Lubricity — viscosity tunable across 4 orders of magnitude without solidification
East Materials supplies seven silicone fluid families covering major industrial use cases, viscosity 5 cSt (cyclomethicone D5) to 100,000 cSt (damping fluid). Every batch is REACH-registered (with appropriate SVHC documentation for D4/D5), tested for viscosity, density, refractive index, and volatiles. Functional equivalents to Dow Corning DC200 / DC PMX, Wacker AK / V / BS, Shin-Etsu KF, and Momentive Silwet series at 35–50% landed-cost discount.
For silicone rubber compounding fillers see HJSIL® Fumed Silica; for paint formulation context see Coatings hub.
The 7 Silicone Fluid Families
1. Polydimethylsiloxane (PDMS) — non-reactive dimethyl
Linear silicone with trimethylsilyl end caps, viscosity 5 → 100,000 cSt continuum. The most-used silicone in industry.
- Structure: (CH₃)₃SiO–[Si(CH₃)₂O]ₙ–Si(CH₃)₃ · CAS 63148-62-9 (some viscosity ranges 9006-65-9)
- Reference: Dow DC200, Wacker AK, Shin-Etsu KF-96
- Common viscosities (cSt): 5, 10, 50, 100, 200, 350, 500, 1000, 5000, 10000, 30000, 60000, 100000
- Use: defoamer base, release agent, lubricant, hydraulic damping, polish, cosmetic emollient, silicone rubber base precursor
2. Amino-Functional Silicone
Linear PDMS with primary/secondary amine side groups; amine anchors to cellulose, protein, and synthetic fibre surfaces for durable softening.
- Structure: PDMS + [Si(CH₃)(CH₂CH₂CH₂NHCH₂CH₂NH₂)O] pendants · CAS 71750-80-6 (amodimethicone)
- Reference: Dow DC929 / Silastic AM, Wacker FZ-3196, Momentive SF1708
- Spec: amine value 0.3–1.2 mg KOH/g, viscosity 500–3000 cSt
- Use: textile softeners (20+ wash-cycle durability vs 2–3 for non-functional), hair conditioner microemulsion 0.5–2%, automotive leather softener
3. Hydroxy-Terminated Silicone (Silanol-Terminated PDMS)
Linear PDMS with –OH end groups instead of methyl. The terminal silanol is the reactive site for condensation-cure silicone rubber, sealants, and adhesives.
- Structure: HO–[Si(CH₃)₂O]ₙ–H · CAS 70131-67-8
- Reference: Dow Silres / Genesee Polymers GP-1, Wacker E series
- Spec: OH 0.05–4.0%, viscosity 750–80,000 cSt
- Use: RTV-1 acetoxy / alkoxy silicone sealant base polymer; many RTV-2 silicone moulds. 750 cSt for low-viscosity RTV-2 moulds → 80,000 cSt for HCR mill-compoundable
4. Methyl Hydrogen Silicone (PMHS / Polymethylhydrosiloxane)
Linear polysiloxane with Si–H side groups on every silicon. Si–H is the reactive crosslinker for addition-cure silicone rubber via hydrosilylation with vinyl-PDMS.
- Structure: (CH₃)₃SiO–[Si(H)(CH₃)O]ₙ–Si(CH₃)₃ · CAS 63148-57-2
- Reference: Dow OFX-1107, Wacker M series, Momentive Y-17056
- Spec: Si–H 6–16 mol/kg (some 30–50% Si–H copolymer for slower crosslinking), viscosity 5–100 cSt
- Use: addition-cure silicone rubber crosslinker; textile DWR water-repellent (Si–H hydrolyses to silanol on fibre, then condenses to hydrophobic film); pigment surface treatment; leather hydrophobic finish
⚠️ Critical handling: PMHS releases hydrogen gas in presence of strong base or moisture at >50°C. Dry storage <30°C, closed-system handling. Do not seal containers if subjected to elevated temperature during transit.
5. Vinyl-Terminated Silicone (V-PDMS)
Linear PDMS with vinyl end groups, the reactive site for addition-cure (hydrosilylation) with PMHS under platinum catalysis. Base polymer of LSR and addition-cure RTV-2.
- Structure: CH₂=CH–Si(CH₃)₂O–[Si(CH₃)₂O]ₙ–Si(CH₃)₂–CH=CH₂ · CAS 68083-19-2
- Reference: Gelest DMS-V31/V35, Dow XIAMETER PMX-200V, Wacker V200/V1000
- Spec: vinyl 0.05–0.5 mmol/g, viscosity 100–100,000 cSt
- Use: LSR injection moulding (medical, baby care, automotive seals), addition-cure RTV-2 (resin-casting moulds), electronic encapsulants. Typical formulation 100 V-PDMS : 5 PMHS : 0.01 Pt catalyst. Grade differentiated by viscosity (flow + crosslink density) and vinyl content (hardness)
6. Cyclomethicone (Cyclic Silicone, D4 / D5 / D6)
Volatile cyclic polysiloxanes used as carrier fluids in personal care. Evaporates after application leaving actives on skin/hair surface.
- Structure: cyclic [Si(CH₃)₂O]ₙ, n = 4 (D4) / 5 (D5) / 6 (D6) · CAS D4 556-67-2, D5 541-02-6, D6 540-97-6
- Reference: Dow XIAMETER 244 / 245 / 246, Wacker AK Volatile, Shin-Etsu KF-994 / 995
- Spec: purity ≥99%, BP D4 = 175°C, D5 = 211°C, D6 = 245°C; viscosity 2.5–7.0 cSt
- Use: hair care (shampoo, conditioner, leave-in spray) — smooth slip + clean evaporation; cosmetic foundation, deodorant; "dry-touch" emollient
⚠️ Regulatory: D4 = REACH SVHC since 2018, D5 added 2024. EU rinse-off cosmetics still permit ≤0.1% D5; leave-on restricted. Check current EU REACH / ECHA guidance before specifying.
7. Phenyl-Modified Silicone
PDMS with phenyl side groups replacing some methyl. Improves high-temp stability (continuous use to 300°C), oxidative stability, and refractive index (matches glass for optical adhesive).
- Structure: PDMS + [Si(C₆H₅)(CH₃)O] or [Si(C₆H₅)₂O] pendants · CAS 63148-58-3
- Reference: Dow 510 fluid, Wacker AP series, Shin-Etsu KF-50
- Spec: phenyl 5–50 mol%, refractive index 1.430–1.580, viscosity 50–10,000 cSt
- Use: high-temp heat-transfer fluid; optical adhesive (LED encapsulation); plasticiser in high-temp silicone rubber. Specified at the high-end of thermal applications
8. Modified Silicone Fluids (Alkyl / Polyether / Carboxyl / Epoxy)
PDMS with specific organic modifications for specialty use:
- Alkyl-modified (octyl / cetyl / stearyl side groups) — emulsifier-free cosmetic, hair conditioner active
- Polyether-modified (PEG / PPG side groups) — paint slip / leveling additive, waterborne coating wetting agent
- Carboxyl-functional — textile DWR crosslink partner
- Epoxy-functional — adhesion promoter in silicone-organic resin hybrids
- Trimethyl Hydrogen Hybrid (T-PMHS) — lower Si–H, slower cure for skin-curing formulations
Applications and Formulation Guidance
| Application | Recommended grade | Loading / formulation | Key technical hook |
|---|---|---|---|
| Premium textile softener (active) | Amino silicone (amine 0.5–1.0, 1000–2500 cSt) | 25–40% active microemulsion; final fabric dose 0.2–0.4% OWF | Amine anchor → 20+ wash cycles. Low-cost domestic: blend amino 5–10% + PDMS 350 cSt 50–70% + cationic surfactant |
| RTV-1 acetoxy / alkoxy silicone sealant base | Hydroxy-terminated PDMS 20,000 cSt, OH 0.1% | 50–60% base + 8–15% fumed silica + 4–7% MTOS/VTMS crosslinker + 0.1–0.5% DBTDL or titanate catalyst + 5–15% plasticiser PDMS 100–350 cSt | Base polymer viscosity controls final sealant rheology and cure profile |
| LSR / addition-cure RTV-2 | V-PDMS 1000 cSt, vinyl 0.15 mmol/g (Part A 90%) + PMHS Si-H 8 mmol/kg (Part B 5–8%) + Karstedt Pt 5–10 ppm | 1:1 A:B mix → cure 110–150°C, 30 s to 5 min | Final hardness 30–80 Shore A by adjusting vinyl and crosslink density |
| Defoamer / antifoam | PDMS 10–100 cSt + hydrophobic fumed silica HJSIL R272 / R974 at 5–10% silica | 50–500 ppm in foaming process | Silica anchors PDMS to foam; PDMS breaks film via surface tension. Used in water treatment, pulp & paper, fermentation, paint |
| Mould release / processing aid | PDMS 350 or 500 cSt neat or 5–20% emulsion | Spray to mould surface per cycle | Silicone rubber, PU casting, concrete pre-cast, food-contact mould release (FDA-eligible PDMS only) |
| Cosmetic formulation | Cyclomethicone D5 (≥99%) 5–20%; PDMS 50–350 cSt 3–10%; amino silicone microemulsion 0.5–2%; alkyl-modified 2–8% | Hair conditioner, leave-in spray, dry shampoo, foundation, BB cream, sunscreen, 2-in-1 shampoo, skin moisturiser | D5 for evaporative slip; PDMS for smooth application; alkyl-modified for non-greasy emollient |
| Paint additive (slip / leveling / defoam) | Polyether-modified silicone (use different mod for waterborne vs solvent); PDMS 350 cSt + HJSIL R272 | 0.1–0.5% on total paint; 0.5–1.5% for slip-defoam combo | Compatible with both solvent-based and waterborne |
| Hydraulic / damping fluid | High-viscosity PDMS 5,000–100,000 cSt | Dashpot dampers, automotive vibration isolators, instrumentation | Viscosity index 200–400 — most thermally stable hydraulic fluid (~10% viscosity change per 50°C) |
| Treadmill belt lubricant | PDMS 350 or 500 cSt | 30–60 ml every 6 months between belt and deck | Industry-standard, OEM-specified. Supplied 1 L / 5 L / 25 L for OEM and aftermarket |
Procurement, Storage, and QC
Packaging, MOQ, and lead time:
| Form | MOQ | Lead time (FOB Shanghai) |
|---|---|---|
| 5 L / 25 L / 200 L drums (industrial) | 200 L (1 drum) | PDMS / amino / modified: 3–5 wk |
| 1 L bottles (lab; cosmetic D5, premium PDMS) | 25 L for cosmetic D5/D6 | Cyclomethicones D5/D6: 3–4 wk (regulated handling) |
| IBC 1000 L (high-volume textile / rubber industrial) | Contract supply | Hydroxy / vinyl / PMHS: 4–6 wk (specialty manufacturing) |
Storage: PDMS / modified — ambient, 24 mo sealed. Hydroxy-terminated — dry storage <25°C, 18 mo. PMHS — dry <25°C, away from heat and base, 12 mo. Vinyl-terminated — ambient, 24 mo. Cyclomethicones — tight-sealed, away from open flame, 24 mo.
QC documentation (every batch CoA includes):
- Kinematic viscosity at 25°C — ASTM D445
- Density at 25°C — ASTM D4052
- Refractive index at 25°C — ASTM D1218
- Volatile content (105°C × 3 hr for non-volatile; GC quantification for D5/D6 in cyclomethicones)
- Functional content (amine value / OH content / Si–H content / vinyl content for functional grades — ASTM titration)
- Heavy metals (Pb / As / Cd / Hg) for cosmetic and food-contact grades
Regulatory: PDMS / amino / modified — REACH-registered. Hydroxy-terminated / vinyl / PMHS — REACH-registered via UK/EU Only Representative. D4 / D5 — REACH SVHC, restricted documentation required.
Specification Table — All Silicone Fluid Families
| Family | Grade examples | CAS | Viscosity (cSt) | Functional content | Reference brands |
|---|---|---|---|---|---|
| PDMS | DMS-50, DMS-350, DMS-1000, DMS-100000 | 63148-62-9 | 5–100,000 | None (inert) | Dow DC200, Wacker AK, Shin-Etsu KF-96 |
| Amino silicone | EMA-1100, EMA-2200 | 71750-80-6 | 500–3000 | Amine value 0.3–1.2 mg KOH/g | Dow DC929, Wacker FZ-3196 |
| Hydroxy-terminated | EHT-750, EHT-20000, EHT-80000 | 70131-67-8 | 750–80,000 | OH 0.05–4.0% | Wacker E series, Gelest GP-1 |
| Methyl hydrogen (PMHS) | EPH-10, EPH-50 | 63148-57-2 | 5–100 | Si-H 6–16 mol/kg | Dow OFX-1107, Wacker M series |
| Vinyl-terminated | EVT-1000, EVT-10000 | 68083-19-2 | 100–100,000 | Vinyl 0.05–0.5 mmol/g | Gelest DMS-V series, Wacker V series |
| Cyclomethicone D4 | ECY-D4 | 556-67-2 | 2.5 | n/a (cyclic) | Dow XIAMETER 244 |
| Cyclomethicone D5 | ECY-D5 | 541-02-6 | 4.0 | n/a (cyclic) | Dow XIAMETER 245 |
| Phenyl silicone | EPS-100, EPS-1000 | 63148-58-3 | 50–10,000 | Phenyl 5–50 mol% | Dow 510, Wacker AP, Shin-Etsu KF-50 |
| Polyether modified | EPM-1, EPM-2 | 68037-64-9 | 50–3000 | PEG/PPG content varies | Momentive Silwet L-77 / L-7600 |
Selection Guide
| Use case | First-choice grade | Why |
|---|---|---|
| Premium fabric softener active | Amino silicone (amine 0.6–0.8) | Anchors to cotton/polyester, lasts 20+ wash cycles |
| Industrial defoamer | PDMS 100 cSt + HJSIL R272 | Low-cost, high-effectiveness combo |
| RTV-1 acetoxy sealant base | Hydroxy-terminated EHT-20000 | Standard 20,000 cSt for sealant rheology |
| LSR injection moulding base | Vinyl-terminated EVT-1000 + PMHS EPH-10 + Pt | Industry-standard addition cure |
| Cosmetic hair spray | Cyclomethicone D5 | Volatile, low residue |
| Cosmetic foundation primer | PDMS 350 cSt | Smooth slip, FDA-eligible |
| Mould release (silicone, PU) | PDMS 350 cSt or 500 cSt | Industry standard |
| Treadmill belt lubricant | PDMS 350 cSt | Industry standard, OEM specified |
| Optical adhesive / LED encapsulant | Phenyl silicone EPS-1000 | Refractive index matches glass |
| Waterborne paint slip additive | Polyether-modified EPM-1 | Polar-compatible |
| Textile water-repellent (DWR) | PMHS EPH-10 + crosslinker | Forms hydrophobic film |
| Hydraulic damping fluid | PDMS 30,000 cSt | High viscosity index, thermal stability |
FAQ
Can East Materials silicone fluids be used in cosmetic / food-contact applications?
Yes for most grades. PDMS, cyclomethicones D5/D6, and amino silicones have FDA 21 CFR 175.300 compliance pathway for indirect food contact. Cosmetic-grade documentation (heavy metals < pharmacopoeia limits, BHT not added, microbial bioburden) is available for PDMS, D5, and amino silicone on contract supply. D4 is REACH SVHC and is restricted — we recommend D5 or D6 as substitutes (note D5 is also SVHC-listed since 2024).
How do I switch from Dow Corning DC200 / Wacker AK to East Materials PDMS?
Direct 1:1 substitution by viscosity grade. Independent testing shows East Materials PDMS 350 cSt matches Dow DC200 350 cSt within ±5% on viscosity, density, refractive index, and surface tension. Common reformulation watch-outs: (1) defoamer formulations may require adjustment for slightly different silica-PDMS interaction; (2) cosmetic formulations should be re-microbial-tested when switching suppliers (industry standard).
What's the difference between PDMS and hydroxy-terminated PDMS?
PDMS has –CH₃ end groups (chemically inert). Hydroxy-terminated PDMS has –OH (silanol) end groups (reactive). Use PDMS for non-reactive applications (defoamer, mould release, hair care emollient). Use hydroxy-terminated PDMS for reactive applications (silicone sealant base polymer, condensation-cure silicone rubber). NOT interchangeable.
How do I handle PMHS (methyl hydrogen silicone) safely?
PMHS contains Si–H bonds that release hydrogen gas in presence of strong base or water at >50°C. Storage: tight-sealed, dry, below 30°C, away from heat sources. Production: closed-system batch reactors with inert gas blanket. Avoid: caustic soda, ammonia, strong amines. Personnel: full skin and eye protection. SDS includes specific safety guidance — request before first order.
Is D5 cyclomethicone subject to EU regulation?
Yes. D4 is REACH SVHC since 2018; D5 was added as REACH SVHC in 2024. EU rinse-off cosmetic products still permit D5 at ≤0.1%; leave-on cosmetic products (foundation, deodorant, hair spray) face escalating restrictions. Manufacturers should track current ECHA guidance. East Materials supplies D5 with appropriate certification, but end-use compliance burden rests with the formulator.
What is the typical lead time and MOQ?
Standard grades (PDMS / amino / modified): 3–5 weeks FOB Shanghai, MOQ 200 L (one drum). Specialty (hydroxy-terminated / vinyl-terminated / PMHS): 4–6 weeks, MOQ 200 L. Cyclomethicones: 3–4 weeks, MOQ 25 L (premium D5 / D6). Container shipments are available across blended grades — order 8 weeks ahead for confirmed delivery.
Related & Sister Sites
- HJSIL® Fumed Silica — silica reinforcement and rheology additive used with silicone fluids.
- MEGEL® Silica Aerogel — for silicone-binder thermal-insulation coating slurries.
- HMMAT® Matting Agents — matting silica often combined with silicone slip additives.
- Coatings Application Hub — for silicone oil as coating additive.
- For silicone curing catalysts (DBTDL, T-12, dioctyltin, platinum) that go with hydroxy- and vinyl-terminated silicones, see chemzip.com/products/silicone-curing-catalysts/. For silane coupling agents (KH-550 etc.) as substrate adhesion promoters, see chemzip.com/products/silane-couplers/. For silicone-rubber-compatible refractory and high-temperature applications, see thermaleast.com.
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