The present disclosure describes a system and method of depositing ceramic or ceramic composite coatings on the inside surface area of a tubular shape. The system and method described herein can provide an interior coating for tubes and pipes to provide wear resistance, abrasion resistance, and anti-scaling effects.

This disclosure relates to basic inorganic compositions. Methods of providing antifungal/antibacterial resistance and/or hydrophobicity and/or corrosion resistance by coating surfaces with the basic inorganic compositions are provided. In another aspect, a silicate composition comprising at least one alkali earth metal; and a Group IV element of silicon, germanium, tin, or lead having at least one hydrocarbon moiety covalently bonded thereto is provided.

This disclosure relates to basic inorganic compositions. Methods of providing antifungal/antibacterial resistance and/or hydrophobicity and/or corrosion resistance by coating surfaces with the basic inorganic compositions are provided. In another aspect, a silicate composition comprising at least one alkali earth metal; and a Group IV element of silicon, germanium, tin, or lead having at least one hydrocarbon moiety covalently bonded thereto is provided.

The present invention relates to a plated steel sheet for hot press forming, a hot-press forming member manufactured using the same, and a manufacturing method thereof. The plated steel sheet comprises: a base steel sheet and a composite plated layer that is formed on at least one surface of the base steel sheet, and has a Mn-based plated layer and an Al-based plated layer alternately formed therein, an Al-based plated layer being formed on the uppermost layer thereof, wherein the composite plated layer has a total thickness of 5 to 30 m, and in this case, the Mn-based plated layer accounts for 5 to 60% of the total thickness.

The present invention relates to a plated steel sheet for hot press forming, a hot-press forming member manufactured using the same, and a manufacturing method thereof. The plated steel sheet comprises: a base steel sheet and a composite plated layer that is formed on at least one surface of the base steel sheet, and has a Mn-based plated layer and an Al-based plated layer alternately formed therein, an Al-based plated layer being formed on the uppermost layer thereof, wherein the composite plated layer has a total thickness of 5 to 30 m, and in this case, the Mn-based plated layer accounts for 5 to 60% of the total thickness.

A deposition method includes: introducing a gas into an airtight container containing electrically insulated raw material particles to generate an aerosol of the raw material particles; transferring the aerosol to a deposition chamber through a transfer tubing connected to the airtight container, the deposition chamber having a pressure maintained to be lower than that of the airtight container; injecting the aerosol from a nozzle mounted on a tip of the transfer tubing toward a target placed on the deposition chamber to cause the raw material particles to collide with the target, thereby causing the raw material particles to be positively charged; generating fine particles of the raw material particles by discharge of the charged raw material particles; and depositing the fine particles on a substrate placed on the deposition chamber.

A deposition method includes: introducing a gas into an airtight container containing electrically insulated raw material particles to generate an aerosol of the raw material particles; transferring the aerosol to a deposition chamber through a transfer tubing connected to the airtight container, the deposition chamber having a pressure maintained to be lower than that of the airtight container; injecting the aerosol from a nozzle mounted on a tip of the transfer tubing toward a target placed on the deposition chamber to cause the raw material particles to collide with the target, thereby causing the raw material particles to be positively charged; generating fine particles of the raw material particles by discharge of the charged raw material particles; and depositing the fine particles on a substrate placed on the deposition chamber.

An attachment coating method including, mixing a conductive attachment into an insulating liquid, immersing an attachment target in the insulating liquid in which the attachment is mixed, and applying ultrasonic vibration to the insulating liquid in which the attachment target is immersed and causing friction between the attachment target and the attachment to charge the attachment target and the attachment.

An attachment coating method including, mixing a conductive attachment into an insulating liquid, immersing an attachment target in the insulating liquid in which the attachment is mixed, and applying ultrasonic vibration to the insulating liquid in which the attachment target is immersed and causing friction between the attachment target and the attachment to charge the attachment target and the attachment.

Methods for making electroactive composite materials for electrochemical cells are provided. The method includes introducing a particle mixture comprising a first particle having a first diameter (R.sub.1) and comprising a first electroactive material and a second particle having a second diameter (R.sub.2) smaller than the first diameter (R.sub.1) and comprising a second electroactive material into a dry-coating device having a rotatable vessel defining a cavity and a rotor disposed therewithin. The vessel is rotated at a first speed in a first direction, and the rotor is rotated at a second speed greater than the first speed in a second direction opposing the first direction. The particle mixture flows between cavity walls and the rotor and experiences thrusting and compression forces that create a substantially uniform coating comprising the second electroactive material on one or more exposed surfaces of the first particle.