SP-154 RESIN

SP-154 RESIN provides high heat resistance, high cohesive strength, shorter open time, and light color.  
SP-154 RESIN by Akrochem is a polymeric dispersion of N, N'-di-phenyl guanidine.
SP-154 RESIN by Akrochem is a heat reactive phenolic resin-based tackifier, that was developed for the formulation of solvent-borne polychloroprene cement.

Cas Number: 9003-35-4
Molecular Formula: C7H6O2
Molecular Weight: 122.12134
EINECS Number: 500-005-2

SP-154 RESIN is a heat reactive phenolic resin that was developed for the formulation of solvent-borne polychloroprene cements.
SP-154 RESIN acts as an efficient secondary accelerator for thiazoles and sulfenamides in NR, SBR and NBR. 
This masterbatch eliminates irritating dust and other potential hazards in handling powder in plants, when encapsulated with chemical dispersion.

In SP-154 RESIN polymer-bound dispersion are a proven means of upgrading plant safety, quality and raw material control. 
SP-154 RESIN shows better uniformity of the mix at lowering processing temperature.
SP-154 RESIN or phenoplasts are synthetic polymers obtained by the reaction of phenol or substituted phenol with formaldehyde.

SP-154 RESIN is used as the basis for Bakelite, PFs were the first commercial synthetic resins (plastics). 
Processing aids are substances added to rubber compounds to improve their processability and handling characteristics during the manufacturing of rubber products.
SP-154 RESIN can also function as a tackifier, which means it helps improve the tack or stickiness of the rubber compound. 

Tackifiers are often used in applications where adhesion is important, such as in tire manufacturing.
SP-154 RESIN is designed to be compatible with a variety of rubber polymers, including natural rubber (NR) and various synthetic rubbers like styrene-butadiene rubber (SBR) and polybutadiene rubber (BR).
Rubber compounds containing SP-154 RESIN can be used in various rubber products, including tires, conveyor belts, hoses, and other rubber goods where improved processing and tack properties are beneficial.

They have been widely used for the production of molded products including billiard balls, laboratory countertops, and as coatings and adhesives. 
They were at one time the primary material used for the production of circuit boards but have been largely replaced with epoxy resins and fiberglass cloth, as with fire-resistant FR-4 circuit board materials.
SP-154 RESIN is typically used as a processing aid in the rubber industry.

SP-154 RESIN offers high heat resistance, cohesive strength, shorter time and light color.
The SP-154 RESIN most widely used is low molecular weight butylated resols, which contain phenolic hydroxyl groups and etherified and unetherified methylol groups. 

The epoxy resins used have a molecular weight of 3000-4000 and therefore contain secondary hydroxyl groups.
SP-154 RESIN is a chemical product used in the rubber industry, specifically as a processing aid and tackifier in rubber compounding.
SP-154 RESIN is used in general purpose and heat-activating contact cement.
 
SP-154 RESIN shows compatibility with nitrile- and chloroprene rubber.
Mixed Alkylphenol heat reactive resin used for phase resistant contact cements with very good heat resistance, short open time, low phasing.
SP-154 RESIN, also known as phenol-formaldehyde resins, are a type of synthetic polymer that has a wide range of industrial applications. 

These resins are formed by the condensation polymerization of phenol (an aromatic organic compound) with formaldehyde (a small organic molecule).
SP-154 RESIN, its properties, recommended usage levels, and safety considerations, it is advisable to consult the product's technical data sheet or contact Akrochem Corporation, the manufacturer or supplier of this product, directly for the most up-to-date information.

There are two main production of SP-154 RESIN methods. 
One reacts phenol and formaldehyde directly to produce a thermosetting network polymer, while the other restricts the formaldehyde to produce a prepolymer known as novolac which can be moulded and then cured with the addition of more formaldehyde and heat.
There are many variations in both production and input materials that are used to produce a wide variety of resins for special purposes.

In the global SP-154 RESIN industry, increase in demand for abrasive materials and coatings in the automotive sector is key to the growth factor. 
In addition, the rise in demand from the electronics and power industry for phenolic laminate drives the global phenolic resin market. 
Growth in population and industrialization is expected to increase demand for transformers and electronic appliances.

This means more SP-154 RESIN are used for producing laminates. In automotive end uses, SP-154 RESIN are also used in making automotive tires, metal coatings, and seals.
Both Resol, as well as Novolac class of SP-154 RESIN, will be used in adhesive applications during the forecast period, owing to high durability and dimensional stability. 
In automotive end uses, SP-154 RESIN are also used in making automotive tires, metal coatings, and seals.

SP-154 RESIN, as a group, are formed by a step-growth polymerization reaction that can be either acid- or base-catalysed. 
Since formaldehyde exists predominantly in solution as a dynamic equilibrium of methylene glycol oligomers, the concentration of the reactive form of formaldehyde depends on temperature and pH.
SP-154 RESIN reacts with formaldehyde at the ortho and para sites allowing up to 3 units of formaldehyde to attach to the ring.
Moreover, the future use of phenolic resin-based components in electric vehicle designs is expected to offer fresh opportunities for the phenolic resin market growth. Furthermore, the growth has increased demand for automotive components that make use of SP-154 RESIN. 

Melting point: 94 °C
Boiling point: 229.3℃[at 101 325 Pa]
Density: 1.10 g/cm3
vapor pressure: 3.18Pa at 25℃
storage temp.: Sealed in dry,Room Temperature
Water Solubility: 1.557mg/L at 25℃
Stability: Stable. Incompatible with strong oxidizing agents.
LogP: 3.564 at 25℃

SP-154 RESIN are blended with other materials to form a modified phenolic adhesive that is used in the automotive industry. 
Review any technical data sheets, product literature, or documentation provided by the manufacturer. 
This documentation often includes information about the chemical composition, properties, recommended applications, and safety precautions for the SP-154 RESIN.

SP-154 RESIN, consider consulting with experts in rubber compounding and materials science. 
SP-154 RESIN can be combined with reinforcing materials like fiberglass or carbon fibers to create composite materials with exceptional strength and resistance properties.
SP-154 RESIN is a heat reactive phenolic resin that was developed for the formulation of solvent-borne polychloroprene cements that do not phase. 

SP-154 RESIN shows high shear strength and has found use as a structural adhesive in the aerospace industry. 
All such factors drive demand for SP-154 RESIN for adhesive applications.
SP-154 RESIN exhibit excellent heat resistance and dimensional stability once cured. 

This makes them suitable for high-temperature applications.
SP-154 RESIN have good electrical insulating properties, making them valuable for use in electrical components, such as circuit boards and insulators.
Obtain the Safety Data Sheet (SDS) for SP-154 RESIN. 

The SDS provides essential information about the product's hazards, safe handling, storage, and disposal procedures.
SP-154 RESIN are a group of the most versatile polymers yet invented. 
SP-154 RESIN are inherently fire-resistant, which makes them valuable in applications requiring flame retardance, such as in fire-resistant coatings and composite materials.

Cured SP-154 RESIN have good mechanical strength and are used in applications where durability and load-bearing capacity are essential.
SP-154 RESIN are used as adhesives in the manufacture of plywood and laminated materials due to their excellent bonding properties.
They are used in molding compounds for various products, including kitchenware, automotive parts, and consumer goods.

SP-154 RESIN are often used as binders for abrasive materials like grinding wheels and abrasive papers.
Although they came into existence at the very start of the age of polymers, they continued to be developed into more and more applications.
SP-154 RESIN reacts with an active magnesium oxide, such as ELASTOMAG 170, in solvent solution, forming a salt which greatly increases the heat resistance of the adhesive. 

SP-154 RESIN can also be used in formulating adhesives with NBR, SBR, natural and reclaimed rubbers. 
SP-154 RESIN is completely compatible with NBR and CR.
SP-154 RESIN are found in a myriad of industrial products. 

They are mainly used in the production of circuit boards. 
They are better known for the production of molded products including billiard balls, laboratory countertops, and as coatings and adhesives.
Products made with SP-154 RESIN are desirable for many manufacturing and laboratory locations because they have great heat resistance and can withstand harsh chemicals, making them ideal for volatile environments.

SP-154 RESIN is also non-conductive and flame resistant. 
These high resistance properties make this material a good choice for environments that require compliance with fire safety, smoke emission, combustion and toxicity standards.
SP-154 RESIN are divided into two different types, novolacs and resoles. 

Both have high temperature stability up to 300° – 350° C, high water and chemical stability. 
SP-154 RESIN are often dark-colored from yellow to dark red, and have an excellent price/performance profile.
SP-154 RESIN are a type of synthetic thermosetting resin invented by Dr. Leo Baekeland in 1907. 

Uses Of SP-154 RESIN:
SP-154 RESIN micro-balloons are used for density control. 
Another use of SP-154 RESIN is the making of duroplast, famously used in Trabant automobiles.
SP-154 RESIN have been used widely across various industries, from use in 3D printers to mine ventilation, offshore pipes, electronics, ballistics, aerospace, and rail and mass transit systems. 

They are even used in constructing different types of products like brake pads, billiard balls and special coatings for metal that increase mechanical strength.
SP-154 RESIN can also be blended with neoprene rubber to make adhesives that offer thermal stability and toughness. 
SP-154 RESIN are used for low-cost partsrequiring good electrical insulating properties,heat resistance, or chemical resistance. 

SP-154 RESIN is a synthetic resin, commonly known as phenolic, made by the reaction of phenol and formaldehyde, and employed as a molding material for the making of mechanical and electrical parts. 
SP-154 RESIN is used in binders, adhesives, laminates, impregnation products, surface coatings, casting sand, etc.
This can be extended by storing it ina refrigerator at 1.6 to 10°C. 

Varying the catalyst(according to the thickness of the cast) andraising the cure temperature to 93°C will alterthe cure time from as long as 8 h to as short as15 min.
Some shrinkage occurs in the finished casting(0.012 to 0.6 mm/mm), depending on thequantity of filler, amount of catalyst, and therate of cure. 
Since the cure cycle can beaccelerated, phenolics are used in short-runcasting operations.

Cast SP-154 RESIN parts are easily removed fromthe mold if the parting agents recommended bythe supplier are used. 
SP-154 RESIN are found in myriad industrial products. 
SP-154 RESIN laminates are made by impregnating one or more layers of a base material such as paper, fiberglass, or cotton with SP-154 RESIN and laminating the resin-saturated base material under heat and pressure. 

SP-154 RESIN is often used with heat and pressure to create a strong bond between layers of plywood. 
This durability can be especially beneficial in environments that are routinely exposed to water or other harsh conditions.

SP-154 RESIN are used as binders for friction materials, which are used for brake linings, brake pads, clutch plates of transmission, and others with superior heat resistance and adhesive performance. 
The use of SP-154 RESIN in foundry applications increases energy savings and high-quality products. 
The use of a Novolac resin enables the use of lower temperatures than conventionally used in the shell process, thereby reducing energy consumption.

SP-154 RESIN are widely used as binders in the production of laminates. 
High-pressure laminates (HPL) are used for countertops, tabletops, wall panels, and decorative surfaces in homes and commercial settings.
SP-154 RESIN serve as binders in the manufacture of grinding wheels, abrasive papers, and abrasive compounds. 

They help hold abrasive particles together and provide the necessary strength and durability.
SP-154 RESIN are used as adhesives in the woodworking industry, particularly for bonding plywood and particleboard. 
SP-154 RESIN are used as binders in foundry sand to create molds and cores for casting metal parts. 

SP-154 RESIN are often combined with reinforcing materials like fiberglass, carbon fibers, or aramid fibers to create composite materials with high strength-to-weight ratios.
These composites find applications in aerospace, automotive, and sporting goods industries.
The use of SP-154 RESIN is rising rapidly in various applications such as friction, adhesive & coating, foundry, foam, saturated substrate, etc.

They offer good sand flow properties and contribute to the formation of precise castings.
SP-154 RESIN offers superior heat resistance, good flexibility, high mechanical strength, and good friction properties. 
These benefits of SP-154 RESIN for friction material drive the market during the forecast period. 

SP-154 RESIN are used to manufacture electrical components, such as circuit boards, insulators, connectors, and terminal blocks. 
Their excellent electrical insulation properties make them ideal for these applications.
SP-154 RESIN are used to create insulation materials, including foam board insulation, insulating laminates, and structural insulated panels (SIPs), which are used in construction for thermal and sound insulation.

Safety Profile Of SP-154 RESIN:
SP-154 RESIN are generally not highly flammable, but they can combust under certain conditions. 
During machining or processing, SP-154 RESIN can release dust or fumes. 
Inhaling these particles or fumes can lead to respiratory irritation and potential health effects.

Environmental Impact Of SP-154 RESIN: 
Improper disposal or release of SP-154 RESIN waste into the environment can have adverse effects. 
Disposal should be in accordance with local regulations and best practices.

Synonyms Of SP-154 RESIN:
SP-154 RESIN
Akrochem P-105
Phenolic resin
PHENOL FORMALDEHYDE RESIN
Phenolformaldehyde foam
VIAM-B