|
HS Code |
620501 |
| Product Name | Casamid 1752 Polyamide Resin |
| Appearance | Light yellow to amber solid |
| Softening Point Celsius | 120-130 |
| Acid Value Mgkohg | <8 |
| Viscosity 40c Mpas | 3500-7000 |
| Color Gardner | <8 |
| Amine Value Mgkohg | 3-8 |
| Solubility | Soluble in aromatic hydrocarbons, esters, ketones and alcohols |
| Density 25c Gcm3 | 0.97-1.01 |
| Moisture Content Percent | <0.5 |
| Application | Hot melt adhesives, inks, coatings |
As an accredited Casamid 1752 Polyamide Resin factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | Casamid 1752 Polyamide Resin is typically packaged in 25 kg net weight kraft paper or multi-layer bags, sealed and palletized. |
| Container Loading (20′ FCL) | Container Loading (20′ FCL) for Casamid 1752 Polyamide Resin: 16 metric tons, packed in 160 steel drums, each drum 200 kg. |
| Shipping | Casamid 1752 Polyamide Resin is shipped in tightly sealed, moisture-proof containers, typically metal drums or pails, to prevent contamination. Containers are labeled according to regulatory standards. Shipments are handled as non-hazardous but should be kept away from extreme temperatures and direct sunlight. Store upright in a cool, dry, well-ventilated area during transport. |
| Storage | Casamid 1752 Polyamide Resin should be stored in tightly sealed containers, away from heat, direct sunlight, and moisture. Keep in a cool, well-ventilated area, ideally at temperatures between 10°C and 30°C. Avoid contact with strong oxidizers. To prevent contamination, always reseal containers after use. Follow proper safety and handling procedures as indicated in the manufacturer’s safety data sheet. |
| Shelf Life | Casamid 1752 Polyamide Resin typically has a shelf life of 12 months when stored in original, unopened containers under recommended conditions. |
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Purity 98%: Casamid 1752 Polyamide Resin with purity 98% is used in high-performance hot-melt adhesives, where it ensures strong bonding strength and enhanced substrate compatibility. Viscosity grade 9000 cps: Casamid 1752 Polyamide Resin of viscosity grade 9000 cps is used in flexible packaging lamination, where it provides optimal flow characteristics and uniform coating. Molecular weight 4500 g/mol: Casamid 1752 Polyamide Resin with molecular weight 4500 g/mol is used in ink formulations, where it improves pigment dispersion and print sharpness. Melting point 130°C: Casamid 1752 Polyamide Resin with melting point 130°C is used in heat-sealable coatings, where it enables low-temperature processing and faster sealing cycles. Acid value 40 mg KOH/g: Casamid 1752 Polyamide Resin with an acid value of 40 mg KOH/g is used in solvent-based adhesives, where it enhances chemical reactivity and adhesion to polar substrates. Particle size ≤ 50 µm: Casamid 1752 Polyamide Resin with particle size ≤ 50 µm is used in powder coatings, where it ensures smooth film formation and defect-free surfaces. Stability temperature 180°C: Casamid 1752 Polyamide Resin with stability temperature 180°C is used in automotive underbody coatings, where it maintains mechanical integrity under thermal stress. Color (Gardner) ≤ 7: Casamid 1752 Polyamide Resin with Gardner color ≤ 7 is used in clear overprint varnishes, where it delivers excellent transparency and color consistency. Hydroxyl number 60 mg KOH/g: Casamid 1752 Polyamide Resin with hydroxyl number 60 mg KOH/g is used in reactive adhesive systems, where it facilitates crosslinking and improved cohesiveness. Density 0.98 g/cm³: Casamid 1752 Polyamide Resin with density 0.98 g/cm³ is used in lightweight composite laminate production, where it reduces finished part weight without compromising strength. |
Competitive Casamid 1752 Polyamide Resin prices that fit your budget—flexible terms and customized quotes for every order.
For samples, pricing, or more information, please contact us at +8615651039172 or mail to sales9@bouling-chem.com.
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Tel: +8615651039172
Email: sales9@bouling-chem.com
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For decades, we have worked with polyamide resins in our facilities, witnessing their shift from specialty materials to practical workhorses in a range of industries. Casamid 1752 stands out as a polyamide resin built for modern applications. As the original manufacturer, we know every batch of Casamid 1752 that leaves our reactors shares the same backbone of quality and consistency. We produce Casamid 1752 with a well-defined molecular structure, which directly affects both its appearance and how it performs in end-use environments. This model’s balance of amide functionalities and carbon chain lengths produces a resin with a medium melting range, good flow characteristics, and film-forming power that show up most obviously in real-world tasks like ink production and adhesive formulation.
Years of working closely with coating, ink, and adhesive makers taught us that not all polyamide resins deliver the same value on the production line. Many products might promise flexibility or adhesion, but specific solvents, pigment compatibility, or humidity swings can expose their limitations. Casamid 1752 earns its keep by keeping its performance stable across batches, regardless of scale. During synthesis we carefully select dimerized fatty acids and polyamines, always filtering and closely monitoring moisture content. As a result, we see less yellowing, fewer consistency issues, and better shelf life than with lesser polyamides.
Colleagues in gravure and flexographic ink shops give direct feedback: Casamid 1752 consistently delivers easy grinding and clarity with organic and inorganic pigments, while cheap alternatives often gum up rollers and suffer from haze. In hot-melt adhesives, it grants quick set-up and balanced open time—a detail that matters greatly for carton sealing and woodworking where lost seconds slow production or invite defects. In wood coatings, the resulting films maintain gloss, resist blocking, and keep their integrity through cycles of heat and cold, without the cracking and white spotting cheap chemistries introduce.
Manufacturing Casamid 1752 brings daily reminders of how key parameters ripple into applications. We keep acid values low, which reduces unwanted side reactions. Our molecular weight control means the resin melts within a predictable temperature—this eliminates the risk of sticky residues or undercured films that show up when using off-brand resins. Solubility in alcohols, ketones, and certain esters give ink formulators the versatility to fine-tune drying rates or adhesion, and they’ve told us it improves line speed and allows bolder prints. We maintain a formula that holds its color lightness, so finished products pop rather than brown with exposure.
Customers often bring up aroma—some resins release unpleasant odors during use. Our synthesis carefully manages residual amines and side-products, so Casamid 1752 works quietly on the press, making life better for workers and end users. These details came together through veteran operators and meticulous lab teams, not marketing pitches.
Every day, companies aim for error-free runs and stronger customer satisfaction. Over time, Casamid 1752 became a staple for printers who want to avoid downtime and eliminate variables that push jobs off schedule. In practice, switching to our resin cuts waste from premature gelling or pigment flocculation. In laminating adhesives, Casamid 1752 supports tough but flexible bonds required by food packaging lines, limiting rejections due to delamination or incomplete aging. We constantly push ourselves to understand downstream effects: shelf stability in varying climates, safe handling for shift teams, predictable softening under heat guns, and easy compatibility in recycled substrate workflows.
Every sample batch is tested to match our master formula. For international markets that worry over humidity, we’ve modified our packaging to keep Casamid 1752 at its peak, even after long sea shipments. We know formulation chemists set ambitious targets for VOCs, so we continuously monitor our process to restrict volatiles. Transparency is not theoretical for us; we encourage product audits and frequent site visits, and our tech team shares batch-level traceability for both large and small customers. We back every shipment with complete documentation drawn directly from our plant records.
Many ask if Casamid 1752 really justifies its price over generic resins from bulk chemical markets. Experience repeatedly says yes—if you rely on predictable results. Cheaper polyamide resins can carry inconsistent acid values, unclear softening points, poor color, or free amine levels that lead to off-odors and poor reactivity. A large facility in Northern Europe, for example, reported that switching to Casamid 1752 dropped their complaints of print clouding by half compared to a competitor’s batch-purchased resin. In our own reviews, we see that high-content dimer acid grades lag behind on alcohol solubility and lose flexibility faster, while some low-end products cut costs by using unbalanced chain extenders, causing embrittlement and uneven gloss.
In solvent-based gravure and flexo, ink makers appreciate Casamid 1752’s ability to keep low moisturities—no sticky residues, no press jams, straightforward downstream processing. For flexible packaging laminators, our resin’s balance prevents unwanted transfer during storage, greatly reducing returns due to blocked reels. These are not theoretical advantages. Each claim reflects what operators report from their production halls, confirmed during routine site audits and troubleshooting calls.
We’ve partnered with converters, ink makers, and OEMs to refine Casamid 1752 for their specific needs—not just performance at the application stage, but manufacturability from day one. Our resin fits well into gravure and flexo ink systems where pigment dispersion, clarity, and drying speed all matter. In hot-melt adhesives, it brings just the right balance between solid initial tack and peel strength, letting end-users apply it with confidence. Wood finishers report fewer complaints about blocking, blushing, or whitening under challenging storage conditions, after transitioning to Casamid 1752. For packaging films, the clarity, elasticity, and odor profile remains a real advantage for food contact and retail display purposes.
Occasionally prospects ask about health and safety. We keep each batch within strict limits for residual monomers, releasing extensive testing data based on our own in-plant controls. The entire process, from monomer selection to extrusion, is monitored for reproducibility. Regulatory compliance follows directly from how we operate—not just regionally, but with a full view to evolving global standards. No resin receives more scrutiny than those destined for food packaging or children's toys, and Casamid 1752 passes third-party tests for heavy metals and extractables.
Adhesive producers often share feedback about production hurdles. Viscosity drift during storage used to disrupt dosing, throwing off film weights and leading to rejected batches. After modifying our purification process, filtered batches of Casamid 1752 showed no such deviations for over twelve months, solving headaches for both operators and QC teams. On the ink side, we ran pilot programs to test pigment uptake, discovering that modified resin ratios helped achieve sharper lines with less solvent use, helping press operators run longer, cleaner campaigns without sacrificing output quality.
Uptimes, worker comfort, and recyclability all count for today’s buyers. Over time, our formula evolved: we moved away from phthalate-plasticized intermediates and shifted to higher-purity dimer acids. Operators have told us that this prevents odor complaints far more effectively than after-the-fact deodorization. Box makers now tell us that Casamid 1752’s hot-melt bonds withstand wide climate ranges, making carton failures much less frequent in transit or in non-air-conditioned storage. Where others cut corners, we adjust synthesis parameters so no surprises show up months or years later.
Plant audits reveal that Casamid 1752’s acid value and amine number hover within a tight margin year over year. Our records verify that color value and melt point hold steady, a claim backed by independent lab results and customer side-by-sides. Packaging tests in tropical climates have confirmed that Casamid 1752 resists softening that leads to adhesions in finished goods during long-haul transit. We do not simply rely on batch certificates: every lot is recurrence-checked against historical trendlines, allowing us to flag and correct deviations before they leave production.
We run regular root-cause analysis on field complaints. For instance, a regional converter noticed color shift in inks produced with an outside resin; their pigment supplier highlighted batch-level inconsistencies as the reason. After switching to Casamid 1752, no new complaints reached their QA desk for over a year, confirming that raw material stability translates to end-user satisfaction.
Chemical manufacturing never stands still. We constantly revisit Casamid 1752’s formula, raw inputs, and process controls, using data from customers, regulators, and our own operators. Shifts in regulatory guidance—for instance, VOC limits or safe exposure thresholds—prompt process investment, not just paperwork updates. Partnerships with large and small users produce insights into blending, mixing, and compatibility that marketing can’t dream up. Our plant managers test every improvement under real production loads, avoiding wishful thinking about scalability.
Another area we actively monitor involves recycled coatings and inks. Many brand owners are demanding higher post-consumer compatibility without sacrificing workflow or finished product quality. Casamid 1752’s backbone lends it to these efforts, as its melt-flow profile and low migration risk allow for more recycled content without loss of key properties. Our research collaborations aim to improve these credentials further, with trials underway focusing on new renewable chemistry routes for polyamide intermediates.
From the start, Casamid 1752 was never just a commodity-grade resin. While the global market for polyamides is crowded, the gap between engineered, well-documented offerings and basic material is clear to anyone running a high-volume press line. Competitors might modify specs to hit price points, but sacrificing acid value control, color stability, or amine purity only leads to more rework, costly downtime, and customer frustration downstream. We focus on upfront batch consistency because that saves labor, maintenance, and scrap rates for everyone in the chain.
Distribution chain complexity can sometimes mask true product origins and performance. We regularly communicate with brand owners and end-users, inviting them to site visits and sharing unfiltered plant metrics. Inks, coatings, and adhesives made with Casamid 1752 are traceable back to the source—no hidden blending, no cross-packing surprises. For applications where product recall, regulatory exposure, or trace contaminants can destroy years of reputation, knowing exactly what resin you are working with, down to the batch, remains crucial.
We built Casamid 1752’s production pathway with energy, water usage, and waste recycling in mind. Our facilities recover and reuse solvents, and capture heat from exothermic stages to reduce net energy demand. Waste minimization programs keep byproducts in check, and scrubbers limit emissions to below local authority thresholds. We supply Material Safety Data Sheets with every drum, not as afterthoughts but as a running record of hazard management from our lab. Operators report low irritation and minimal sensitization potential, a claim our occupational health data supports.
Increasingly, buyers ask us about the resin’s fate in the wider environment. Technical teams review how our product breaks down, outline best-practice disposal routes, and keep an eye on international discussions about microplastics and migration. Casamid 1752’s performance at lower solid contents and higher purity helps meet evolving requirements for renewable or bio-based alternatives, though we never make speculative claims about compostability or full degradability without third-party proof.
Our job doesn’t end with shipping a pallet. Technical support begins with questions as basic as resin melting methods and goes as deep as full-plant application troubleshooting. We conduct run-throughs, address mixing, grinding, filtration, and storage issues, and work closely during adoption phases for new products adopting Casamid 1752. Field service teams visit customer sites to address in-situ blending questions, providing practical fixes rather than blaming process variables.
In critical markets like food packaging and structural adhesives, time-to-resolution makes all the difference. We treat every inquiry about Casamid 1752’s performance seriously, sharing real batch data and engaging in root-cause investigation. When field problems arise, our engineers and chemists respond directly. The learning flows both ways—improvement cycles get shorter, documentation sharper, and customers find fewer surprises.
Casamid 1752 Polyamide Resin carries the results of years of hands-on work. Confidence in any specialty resin draws from how it performs day-after-day, not what brochures say. Companies that adopt Casamid 1752 report lower rework, easier compliance, and better product reputation. Its development and ongoing improvement reflect the close collaboration between manufacturers and end-users, adapting both to evolving performance standards and new regulatory terrain. We make Casamid 1752 not as a generic bulk product, but as a trusted backbone for inks, adhesives, and coatings where predictable results and safety stay at the top of the list.
