Abstract: A compact mobile variable angle vibrating screen with a suspension and dampening system configured to accommodate variable angles and exhibit acceptable vibration levels; especially during power up and power down surge vibration at the variable angles. The system comprises a group of bi-directional dual pivot leg vibration damper mechanisms which are effective only during times of excessive vibration such as during the power up and power down vibration surges.

Abstract: A compact mobile variable angle vibrating screen with a suspension and dampening system configured to accommodate variable angles and exhibit acceptable vibration levels; especially during power up and power down surge vibration at the variable angles. The system comprises a group of bi-directional dual pivot leg vibration damper mechanisms which are effective only during times of excessive vibration such as during the power up and power down vibration surges.

Abstract: A compact mobile variable angle vibrating screen with a suspension and dampening system configured to accommodate variable angles and exhibit acceptable vibration levels; especially during power up and power down surge vibration at the variable angles. The system comprises a group of bi-directional dual pivot leg vibration damper mechanisms which are effective only during times of excessive vibration such as during the power up and power down vibration surges.

Abstract: A compact mobile variable angle vibrating screen with a suspension and dampening system configured to accommodate variable angles and exhibit acceptable vibration levels; especially during power up and power down surge vibration at the variable angles. The system comprises a group of bi-directional dual pivot leg vibration damper mechanisms which are effective only during times of excessive vibration such as during the power up and power down vibration surges.

Abstract: Improvements in the high-temperature wash durability and discoloration levels for fabrics having topically applied silver-ion treatments are provided. Such solid compounds are generally susceptible to discoloration and, due to the solid nature thereof, are typically easy to remove from topical surface applications, particularly when laundered at elevated temperatures. The inventive treatment requires the presence of a specific cross-linked binder, either as a silver-ion overcoat or as a padded-on component of a cross-linked binder admixed with the silver-ion antimicrobial compound. In addition, specific metal halide additives may be utilized to combat the discolorations typical of such silver-ion formulations.

Abstract: Improvements in the high-temperature wash durability and discoloration levels for fabrics having topically applied silver-ion treatments (such as ion-exchange compounds, like zirconium phosphates, glasses and/or zeolites) are provided. Such solid compounds are generally susceptible to discoloration and, due to the solid nature thereof, are typically easy to remove from topical surface applications, particularly when laundered at elevated temperatures. The inventive treatment requires the presence of a specific cross-linked binder, either as a silver-ion overcoat or as a padded-on component of a cross-linked binder admixed with the silver-ion antimicrobial compound. In addition, specific metal halide additives (preferably substantially free from sodium ions) may be utilized to combat the discolorations typical of such silver-ion formulations.

Abstract: White wound care devices having a topically applied silver-based antimicrobial finish are provided. The finish consists essentially of at least one silver ion releasing compound and at least one binder compound. The finish may be applied to a target substrate, such as a fiber, fabric, or alginate to provide a single layer antimicrobial wound care device, in which the color of the original substrate is substantially maintained after application of the antimicrobial finish. Alternatively, the silver-containing substrate may be combined with one or more additional layers to provide a composite antimicrobial wound care device.

Abstract: Antimicrobial fabrics having a topically applied silver-based antimicrobial finish are provided. The finish comprises at least one silver ion-containing compound and at least one binder compound. The antimicrobial fabric may be formed into a garment to be worn as a base layer garment, close to the skin, which aids in the prevention of skin infection caused by abrasions to the skin. The garment may also aid in preventing the transfer of microbes from one person to another, for instance, after sharing communal items such as protective athletic equipment. The antimicrobial fabric exhibits long lasting antimicrobial efficacy against both Gram positive and Gram negative microbes and also exhibits antimicrobial efficacy after repeated wash cycles. Also provided is a method for making the silver-containing antimicrobial fabric.

Abstract: Antimicrobial fabrics having a topically applied silver-based antimicrobial finish are provided. The finish comprises at least one silver ion-containing compound and at least one binder compound. The antimicrobial fabric may be formed into a garment to be worn as a base layer garment, close to the skin, which aids in the prevention of skin infection caused by abrasions to the skin. The garment may also aid in preventing the transfer of microbes from one person to another, for instance, after sharing communal items such as protective athletic equipment. The antimicrobial fabric exhibits long lasting antimicrobial efficacy against both Gram positive and Gram negative microbes and also exhibits antimicrobial efficacy after repeated wash cycles. Also provided is a method for making the silver-containing antimicrobial fabric.

Abstract: Improvements in the high-temperature wash durability and discoloration levels for fabrics having topically applied silver-ion treatments (such as ion-exchange compounds, like zirconium phosphates, glasses and/or zeolites) are provided. Such solid compounds are generally susceptible to discoloration and, due to the solid nature thereof, are typically easy to remove from topical surface applications, particularly when laundered at elevated temperatures. The inventive treatment requires the presence of a specific cross-linked binder, either as a silver-ion overcoat or as a padded-on component of a cross-linked binder admixed with the silver-ion antimicrobial compound. In addition, specific metal halide additives (preferably substantially free from sodium ions) may be utilized to combat the discolorations typical of such silver-ion formulations.