To source verified Pure 0142, contact specialty chemical distributors such as Avantor, Thermo Fisher Scientific, or regional suppliers listed on the "Green Chemistry" registry. Always insist on the current Safety Data Sheet (SDS) revision dated within the last 12 months. Pure 0142 is more than a product code—it is a precision tool. When you understand its thermal properties, compatibility matrix, and regulatory standing, you unlock a new tier of manufacturing quality. The future of clean is not just pure; it is Pure 0142 . Have you used Pure 0142 in a unique application? Share your experience in the comments below or contact our lab for custom blending options.
| Parameter | Value | |-----------|-------| | | Clear, colorless liquid | | Purity | ≥ 99.7% | | Water Content | < 50 ppm | | Boiling Point | 142°C (hence the '0142' suffix) | | Flash Point | 48°C (closed cup) | | Density @ 20°C | 0.89 g/cm³ | | Vapor Pressure | 3.5 hPa @ 20°C | | Surface Tension | 23.5 dynes/cm | | Dielectric Constant | 2.1 (excellent for electronics) | | Resistivity | > 2 GΩ·cm |
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Before ordering, conduct a side-by-side trial against your incumbent solvent. Measure cleanliness via contact angle goniometry (target < 10° for hydrophilic surfaces) or ion chromatography. In over 90% of documented comparisons, Pure 0142 outperforms traditional solvents in both cleanliness and cost-per-cleaned-part.
But what exactly is Pure 0142 ? Why is it trending in niche manufacturing circles, and how can your organization leverage its unique properties to optimize workflows? This long-form article will dissect everything you need to know about Pure 0142, from its chemical backbone to real-world applications, storage protocols, and compliance standards. At first glance, "Pure 0142" appears cryptic. The structure is logical: "Pure" indicates the highest grade of refinement, typically exceeding 99.5% purity with low heavy metal content. "0142" is a batch-specific or catalog-specific reference number used by specialized chemical suppliers to denote a unique molecular formula or a stabilized mixture. To source verified Pure 0142, contact specialty chemical
The boiling point of is critical. It allows Pure 0142 to remove high-viscosity fluxes and oils without reaching thermal degradation points of sensitive circuit boards or plastic components. Furthermore, its low surface tension enables it to penetrate microscopic crevices—down to 5 microns—making it superior to aqueous cleaning systems. Top 5 Industrial Applications of Pure 0142 1. Precision Electronics Cleaning The most common use case for Pure 0142 is in the removal of rosin-based flux residues after surface-mount technology (SMT) assembly. Because it leaves no ionic residues, it prevents dendrite growth and short circuits over time. Major smartphone and server manufacturers have switched to Pure 0142 for final assembly cleaning. 2. Optical Lens Manufacturing Pure 0142’s lack of streaking makes it the solvent of choice for coating and cleaning high-end camera lenses, microscope objectives, and AR/VR waveguides. It removes fingerprint oils and polishing compounds without clouding anti-reflective coatings. 3. Precision Machining and Degreasing For aerospace and medical device machining (titanium, stainless steel 316L), Pure 0142 acts as a vapor degreaser solvent. It eliminates cutting fluids and lapping pastes from blind holes and threaded features. Unlike chlorinated solvents, it does not cause stress cracking in high-strength alloys. 4. Dielectric Fluid in Capacitors Due to its high resistivity and stable dielectric constant, certain formulations of Pure 0142 are used as an impregnating fluid in film capacitors. It enhances voltage breakdown strength while remaining chemically inert to polypropylene films. 5. 3D Printing Support Removal In the additive manufacturing of intricate SLA and DLP parts, Pure 0142 dissolves uncured resin more gently than harsh chemicals like IPA. It prevents swelling of fine features (e.g., lattice structures or microfluidic channels), preserving dimensional accuracy to ±0.01mm. Why Choose Pure 0142 Over Traditional Solvents? The market is crowded with options—acetone, MEK, nPB, and HFE. Here is a direct comparison table:
| Property | Acetone | n-Propyl Bromide | HFE-7100 | | |----------|---------|------------------|----------|----------------| | Boiling Point | 56°C | 71°C | 61°C | 142°C | | Evaporation Rate | Very Fast | Fast | Very Fast | Controlled | | Residue | Low | Medium | None | None | | Ozone Depletion | No | Low (Phase-out) | No | No | | GWP (100-yr) | ~0 | ~0.5 | High (320) | < 5 | | Flammability | High | Low | None | Low (safe) | Share your experience in the comments below or
In the rapidly evolving landscape of industrial chemicals, specialty solvents, and high-purity reagents, few identifiers carry as much specific weight as the designation Pure 0142 . For lab technicians, procurement managers, and quality assurance professionals, this is more than just a product code—it is a benchmark for consistency, performance, and safety.