In a soundproof member 10 including a polyurethane foam 11 and disposed apart from an engine E on a vehicle interior side of a dash panel 50 partitioning a space into an engine room having the engine E as a sound source and a vehicle interior, the polyurethane foam 11 has a surface layer 12 on at least a part of the surface thereof, a one side surface of the polyurethane foam 11 directly facing the vehicle interior side of the dash panel 50 has at least a surface layer 12A in an open cell state or a core, and a surface layer 12B of the other side surface opposite to the one side surface is a surface layer in a closed cell state.

A composition for eco-friendly crayon and a method for producing the eco-friendly crayon is disclosed. The composition comprises one or more non-toxic ingredients including soy wax, beeswax, and coloring pigment. The waxes are combined and heated in a heating chamber. The mixture is heated to form a halfway melted mixture. The coloring pigment is added to the halfway melted mixture and stirred until fully dissolved. The dissolved mixture is then poured into a mold and cooled. The cooled mixture is removed from the mold to prepare crayons for use. The crayons are made in a variety of shapes and sizes. The non-toxic ingredients are free of harmful components and prevent crayons from remaining in the user's hand. Further, a method used to prepare the non-toxic crayon uses waxes and coloring pigment without any additional ingredients, thereby providing softer crayons with high level of eco-friendly attributes.

A composition for eco-friendly crayon and a method for producing the eco-friendly crayon is disclosed. The composition comprises one or more non-toxic ingredients including soy wax, beeswax, and coloring pigment. The waxes are combined and heated in a heating chamber. The mixture is heated to form a halfway melted mixture. The coloring pigment is added to the halfway melted mixture and stirred until fully dissolved. The dissolved mixture is then poured into a mold and cooled. The cooled mixture is removed from the mold to prepare crayons for use. The crayons are made in a variety of shapes and sizes. The non-toxic ingredients are free of harmful components and prevent crayons from remaining in the user's hand. Further, a method used to prepare the non-toxic crayon uses waxes and coloring pigment without any additional ingredients, thereby providing softer crayons with high level of eco-friendly attributes.

An apparatus is provided including a sterile cover. The sterile cover includes a first portion (202) that defines a first cavity such that the first portion is configured to secure a non-sterile inverter (106) of a wide angle viewing attachment for a microscope within the first cavity. The sterile cover also includes a second portion integral with the first portion. The second portion defines a second cavity continuous with the first cavity. The second portion is configured to secure an imaging lens (201) of the microscope within the second cavity. A method is provided for using the microscope including the apparatus. A method is provided for forming the apparatus.

An apparatus is provided including a sterile cover. The sterile cover includes a first portion (202) that defines a first cavity such that the first portion is configured to secure a non-sterile inverter (106) of a wide angle viewing attachment for a microscope within the first cavity. The sterile cover also includes a second portion integral with the first portion. The second portion defines a second cavity continuous with the first cavity. The second portion is configured to secure an imaging lens (201) of the microscope within the second cavity. A method is provided for using the microscope including the apparatus. A method is provided for forming the apparatus.

An apparatus for embedding objects in castings made in batch includes a base comprising a plurality of cavities for molding, each cavity corresponding to an item to be molded; a framework comprising a plurality of gripping mechanisms for suspending objects from the framework into the cavities for embedding the objects within the molded items, each gripping mechanism being configured to release a respective object upon actuation; and, a lifting mechanism transitionable for effecting actuation of the plurality of gripping mechanisms such that objects suspended by the gripping mechanisms are released. A method of casting includes partially filling a plurality of cavities with a liquid; suspending objects from a framework; simultaneously partially sinking the objects into the liquid in the cavities; releasing the objects from the framework after at least partially hardening of the liquid; and fully immersing the objects with the liquid.

A method of manufacturing a microfluidic architecture having at least one channel disposed therein. Steps can include pouring an uncured polymeric material into a mould to produce a first layer; at least partially curing the first layer; and forming the at least one channel by disposing a support material on the first layer; pouring an uncured polymeric material onto the first layer to form a second layer to thereby encapsulate the support material; and at least partially curing the second layer such that the first layer and second layer together form the microfluidic architecture; wherein the support material undergoes a phase change during the process of forming the at least one channel. The phase change of the support material enables the material to be more easily disposed and/or removed after formation of the channel.

A seat pad with improved thermal comfort and improved vibration absorptivity and a seat pad manufacturing method for easily obtaining the seat pad are provided. In the seat pad (1), when a surface portion (2) up to 10 mm from a surface (1f) is cut out and the air permeability AR1 of the surface portion (2) is measured in compliance with JIS K 6400, the air permeability AR1 is more than 5 cc/cm.sup.2/sec and 25 cc/cm.sup.2/sec or less. The seat pad manufacturing method is a seat pad manufacturing method for obtaining the seat pad (1) by supplying a molding material into a molding die and performing foam molding. As the molding die, a molding die an inner surface of which is covered with polystyrene or polyethylene is used.

A wax composition that improves at least one of traction or a grip of sporting equipment comprises: 1-98 wt. % of a primary wax component, wherein the primary wax component is not derived from petroleum, is not synthetic, is not derived from a mineral, is not derived from an animal, and is not derived from an annual plant; 1-40 wt. % of a softening agent; and at least one of a) above 0-40 wt. % of a tackifier or b) above 0-70 wt. % of a filler.

Methods for producing at least a part of a sporting good, in particular a sports shoe, can include: (a) depositing a first material into a mold, and (b) vibrating the mold to modify the distribution of the first material in the mold.