摘要:
An encapsulated material containing an oxidation-sensitive core is covered by at least a dried phospholipid layer, and contains at least one phytosterol in the core, the phospholipid layer or in a further layer or layers. By using microencapsulation, oxidatively unstable materials may be provided with a synthetic protective barrier and rendered less susceptible to oxidative degradation.
摘要:
A method is used to separate fractions from a seed. This can be done by: a) Physically breaking down the Chia seed into smaller particles; b) Adding a liquid carrier to the broken Chia seed to form a Chia liquid carrier blend; c) Optionally providing further processing of the Chia liquid carrier blend to further reduce the particle size of the Chia particles d) Optionally centrifuging the Chia liquid carrier blend; e) Optionally forming at least three discernible layers of materials within the centrifuged Chia liquid carrier blend; f) Optionally separating the composition of at least one layer from remaining layers; and g) Optionally combining the separated layers together into a desired combination/ratios h) Drying the separated layers or combined layers into a flowable powder.
摘要:
An article and process provides a stable technology that reduces the microbial content by providing molecular iodine to the stabilized reagents when at least two reactants are activated by aqueous and/or alcohol materials.
摘要:
Various materials, including generally non-compatible materials may be provided from a single delivery system by a unique encapsulation system. An encapsulation system is advantageously constructed as a core of aqueous liquid having at least 5% by weight water therein, and an encapsulant surrounding the core to form a stable encapsulated particle, the encapsulant comprising at least one layer of hydrophobic particles in contact with and surrounding the core, the core and hydrophobic particles providing an encapsulated system that has an average weight average particle diameter of from 0.05 to 25 micrometers and can support its own weight. The encapsulation system may be provided by a novel method of manufacture comprising providing a mass of hydrophobic particles having average mass diameter size of between 0.05 and 25 micrometers, providing droplets of an aqueous medium to the mass of particles, gently mixing the fine particles of aqueous medium and the hydrophobic particles to form a stable encapsulant system of droplets of the aqueous medium encapsulated by a shell of particles.
摘要:
The present invention relates to a process for adhering a powder to a substrate. The process includes the steps of: a) providing an oscillating magnetic field, b) continuously introducing into the magnetic field coating material, a substrate, and a means of affixing the coating material to the substrate by forming a fluidized bed of at least the coating material and providing sufficient force to cause the coating material to adhere to the surface of the substrate, and c) continuously collecting the coated substrate.
摘要:
Particles are applied to the surfaces of materials, especially in the form of discontinuous or patterned coatings on the surfaces of sheet materials by a process comprising the steps of: a) providing a support, b) placing a bed of non-adhered particles on the support, the particles being capable of being moved by an electric field of less than 100 KV/cm, c) placing a mask with a first and second surface over the bed of non-adhered particles, the mask having holes which pass from the first to the second surface, the first surface facing the bed of non-adhered particles without the mask touching the bed of non-adhered particles, the holes in the mask having a size which would allow passage of individual particles from the bed of non-adhered particles through the holes, d) placing a receptor material capable of at least temporarily retaining an electric charge adjacent to the second surface of the mask, which second surface faces away from the bed of non-adhered particles, e) applying an electrical charge to the receptor material which is at least temporarily retained by the receptor material, f) applying an electrical field between the mask and the support, the electrical field being of at least sufficient strength to cause individual particles from the bed of non-adhered particles to move off the first substrate and impact the mask, g) allowing some of the individual particles which move off of the support to enter the holes in the mask and contact the receptor material, and h) the contract by individual particles to the receptor material causing at least some of the particles contacting the receptor material to adhere to the receptor material at least by charge attraction of the individual particles to charge on the receptor material.
摘要:
Foamed thermoplastic articles, both filled and unfilled foamed articles have a foamed density of greater than 0.03 grams per cubic centimeters (g/cm.sup.3), cell sizes in the range of 10 to 300 micrometers (.mu.m) with cell wall thicknesses of greater than 0.1 .mu.m but less than 2 .mu.m and a process for making the same.
摘要翻译:填充和未填充的发泡制品的发泡热塑性制品的发泡密度大于0.03克/立方厘米(g / cm 3),泡孔尺寸在10-300微米(μm)的范围内,孔壁厚度大于0.1 亩,但小于2亩,并制造相同的过程。
摘要:
Products comprising labile compounds, such as polyunsaturated fatty acids, and having first and second encapsulants are disclosed. A first encapsulant can be a spray dried coating and the second encapsulant can be a prill coating. Methods of making the same are provided.
摘要:
Microencapsulated delivery vehicles comprising an active agent are disclosed. The microencapsulated delivery vehicles may be introduced into products such that, upon activation, the product provides a functional benefit to a substrate, such as a user's skin.
摘要:
A method provides a milled whole seed product from a whole seed having at least 0.01% by total weight of oil therein. The whole seed is added to an aqueous carrier which is physically milled at a shear rate of at least 3,000 r.p.m. The shearing is continued until at least 50% by weight of seed solids will pass through a square mesh screen having 1.2 mm screen hole dimensions. The solids in aqueous carrier is collected as a suspension or dispersion in the aqueous carrier. The collected seed solids in aqueous carrier are dried to form a free-flowing powder. The free-flowing powder is rehydrated with a second aqueous medium to form a non-mucilaginous suspension or dispersion.