Nitrocellulose is a common substance used to produce paints and paper. This material is known to be very durable, which makes it an excellent choice for applications such as furniture. It can also be used to make a variety of different materials including plastics, glass, and ceramics.
Originally developed during the 1920s, nitrocellulose paint has been used for a wide variety of applications. It's one of the longest-lived modern pigments. It's often used in coatings with exceptional clarity. It's also used to strengthen tarpaulins in aircraft construction.
Nitrocellulose paint combines the qualities of a binder, an organic pigment, and a fast drying solvent. It's considered one of the most effective organic finishes. It's also known for its ease of detailing and retouching.
It's an especially popular choice for musical instrument surfaces. It provides the depth and finish of a traditional lacquer, but the flexibility of an acrylic. The finish also provides superior resistance to cold checking.
If you're looking for a hard finish that is easy to apply, polish, and repair, consider nitrocellulose. It also has the advantage of being anti-cracking. It's available in many different colors to suit any design or project.
Originally, nitrocellulose was only available through a few specialty manufacturers. But more manufacturers started using it. It's also available from Bill Hirsch products and Louis and Company in Sonora, CA.
Nitrocellulose finishes are used by furniture manufacturers for furniture and other wooden objects. They are also used for decorative purposes, such as fireworks. It's also commonly used in the automotive industry for retouching.
nitrocellulose membrane has been developed as an immobilization system for small proteins such as nucleic acids. It can be used for nucleic acid detection, Western blot assays and protein transfer. It has a low background and a good binding affinity for proteins with a wide range of molecular weight.
It is a hydrophobic membrane with a 0.2 um pore size. It is resistant to mild acids and is suitable for reprobing and stripping. It has a smooth surface and is flexible. It is used in a wide range of applications including Western blot assays, skin protectants, nucleic acid detection and protein transfer.
Nitrocellulose membranes can be regenerated and are suitable for a wide range of labeling systems. Their high binding capacity makes them suitable for direct absorption of biomolecules. Moreover, their high surface area and sensitivity make them suitable for transfer of biological molecules.
Nitrocellulose membranes are characterized by their high binding capacity, excellent sensitivity, and good binding affinity for small proteins. These membranes are also suitable for transfer of biological molecules.
In this study, the adherence, growth, and spread of eight established cell lines on nitrocellulose membranes were examined. Optical microscopy and hematoxylin and eosin staining were used to assess the membranes. The average degree of nitration was measured. Various factors that can affect the average degree of nitration include immersion time, reaction conditions, and water content.
During the early 1920s, Edmund Flaherty, a scientist at the DuPont Company, invented nitrocellulose lacquer. He dissolved nitrocellulose in a solvent, such as naphtha, and then added plasticizers to improve its durability. The product was also easier to apply than traditional lacquer.
In the 1950s and 1960s, Fender and Gibson used nitrocellulose lacquers exclusively on electric guitars. However, guitar companies used other manufacturers' lacquers as well. These were sometimes made from both nitrocellulose and acrylic. The results varied.
The main benefit of using nitrocellulose lacquer was its durability and resistance to chipping and checking. It also gave a higher gloss. As a result, guitar makers realized that it was ideal for use on guitars and other musical instruments.
However, nitrocellulose lacquer was not without its drawbacks. It is also very flammable. It is also susceptible to a variety of solvents. Some of these solvents include toluene, xylene, naphtha, and acetone. It is also susceptible to overspray. It is therefore recommended that you wear a breathing mask when applying it.
However, some guitarists prefer to use modern polyester finishes instead. These are harder and more water-resistant than nitro lacquer. They also have a glossier finish.
Nitrocellulose lacquer is also more scratch-resistant than shellac. In addition, it can be sanded to a mirror finish. However, this is a much more labour-intensive process.