Posts Tagged ‘Anti-mite anti-mold and anti-microbial agent ABM’

The effects of ABM Control Methods:
Prevent the growth of spores
Penetrate the plant to destroy the in vivo mycelia
Destroy the intact body of Ganoderma sp. to prevent the production of spores
ABM is a natural microbial inhibitors of antimicrobial agents produced by the fermentation of 21 different types of microbes, rich in trace elements and microbial metabolism enzymes. Other biological compound are antibiotics and growth hormones promote plant root growth, improve crop resistance to disease contains antimicrobial agent that inhibit the growth of fungi and promote the plant growth
An agent-based model (ABM) (also sometimes related to the term multi-agent system or multi-agent simulation) is a class of computational models for simulating the actions and interactions of autonomous agents (both individual or collective entities such as organizations or groups) with a view to assessing their effects on the system as a whole. It combines elements of game theory, complex systems, emergence, computational sociology, multi-agent systems, and evolutionary programming. Monte Carlo Methods are used to introduce randomness. ABMs are also called individual-based models. A review of recent literature on individual-based models, agent-based models and multiagent systems is given in.
The models simulate the simultaneous operations and interactions of multiple agents, in an attempt to re-create and predict the appearance of complex phenomena. The process is one of emergence from the lower (micro) level of systems to a higher (macro) level. As such, a key notion is that simple behavioral rules generate complex behavior. This principle, known as K.I.S.S.  is extensively adopted in the modeling community. Another central tenet is that the whole is greater than the sum of the parts. Individual agents are typically characterized as boundedly rational, presumed to be acting in what they perceive as their own interests, such as reproduction, economic benefit, or social status, using heuristics or simple decision-making rules. ABM agents may experience “learning”, adaptation, and reproduction.
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Use of Anti-mite anti-mold and anti-microbial agent ABM
Under the room temperature and wet condition, the textile fabric is suitable for growing of bacteria, mold and mites. And the excretion of the mites is pathogenic to asthma. Under this circumstance, it is not only unhealthy, but also can make bad smell. Like mattress, we cannot wash it usually, and the carpet only can be dust collected. So it is purged a part of bacteria and mold, and the remains can reproduce the descendants. The agent of ABM has the ability to solve the trouble, because it restrain the reproduce of these microorganism, which make it impossible of the mold, fading and bad odor of fabric.
Anti-mite anti-mold and anti-microbial finishing agent ABM for textile fabric effective for mite and bacteria resistance, excellent durability and good safety, excellent resistance to washing. The agent ABM has a active radical formed covalent bond with¨C0H- , –NH-, on the treated fabric and it can also form the membrane to anti insect. The agent is suitable for finishing cotton, linen, wool, polyester and nylon as well as viscose etc. It can be applied to bed sheets, underwear, towels, hosiery, carpet, sofa cloth, decorative fabric in room, baby dress, toy and air filtration materials as well as military textile products etc. The agent exerts no negative influence on the whiteness, shade, strength, touch and permeability of the treated fabrics.
Based on testing and clinical practices by many authorized units all over the world, it has been proven that the textile fabric treated by ABM can eradicate harmful microorganisms such as epiphyte and mildew including staphylococcus aureus, pneumobacillus, escherichia coli, candida albicans etc. The fabric treated with ABM features non-stimulation to the skin, non-toxic to the human body and comfortable to wear. The fabric can also effectively prevent some diseases including, hypersensitive bronchial asthma, hypersensitive rhinitis, agria, skin disease , conjunctivitis, gonorrhea, folliculitis scabies etc. Furthermore, the fabric can provide prevention and cure of ringworm of the foot, eczema, odor from sweat, foot odor, and skin itches etc. The agent ABM is accord with American standard AATCC and Japanese standard JISL1902-1998. Anti-bacteria anti-mold and anti-odor finishing agent ABM has highly efficient and extensive for anti G+ or G-.
G+ G- mould and yeast Mite MRSA E.coli Candida albicans dust mites Bacillus subtilis streptococcus pneumoniae staphylococcus epidermidis leather mites S.aureus pseudomonas aeruginosa aspergillus niger tsutsugamushi mites
It can destroy the cell wall and change permeability of cell membrane, so that some important matter run down in cell membrane, bacterium dead.
An agent-based model (ABM) (also sometimes related to the term multi-agent system or multi-agent simulation) is a class of computational models for simulating the actions and interactions of autonomous agents (both individual or collective entities such as organizations or groups) with a view to assessing their effects on the system as a whole. It combines elements of game theory, complex systems, emergence, computational sociology, multi-agent systems, and evolutionary programming. Monte Carlo Methods are used to introduce randomness. ABMs are also called individual-based models. A review of recent literature on individual-based models, agent-based models and multiagent systems is given in.
More about: Anti-mite anti-mold and anti-microbial agent ABM sale
Read more: textile additives