Abstract: Provided is a copper foil for a printed wiring board including a roughened layer on at least one surface thereof. In the roughened layer, the average diameter D1 at the particle bottom being apart from the bottom of each particle by 10% of the particle length is 0.2 to 1.0 ?m, and the ratio L1/D1 of the particle length L1 to the average diameter D1 at the particle bottom is 15 or less. In the copper foil for printed wiring board, when a copper foil for printed wiring having a roughened layer is laminated to a resin and then the copper layer is removed by etching, the sum of areas of holes accounting for the resin roughened surface having unevenness is 20% or more. The present invention involves the development of a copper foil for a semiconductor package substrate that can avoid circuit erosion without causing deterioration in other properties of the copper foil.
Abstract: Provided is a ferromagnetic material sputtering target containing a matrix phase made of cobalt, or cobalt and chromium, or cobalt and platinum, or cobalt, chromium and platinum, and an oxide phase including at least chromium oxide, wherein the ferromagnetic material sputtering target contains one or more types among Y, Mg, and Al in a total amount of 10 wtppm or more and 3000 wtppm or less, and has a relative density of 97% or higher. The provided ferromagnetic material sputtering target containing chromium oxide can maintain high density, has uniformly pulverized oxide phase grains therein, and enables low generation of particles.
Abstract: A high-purity copper sputtering target, wherein a Vickers hardness of a flange part of the target is in a range of 90 to 100 Hv, a Vickers hardness of an erosion part in the central area of the target is in a range of 55 to 70 Hv, and a crystal grain size of the erosion part is 80 ?m or less. This invention relates to a high-purity copper sputtering target that does not need to be bonded to a backing plate (BP), and aims to provide a high-purity copper sputtering target capable of forming a thin film having superior uniformity by enhancing a strength (hardness) of the flange part of the target, and reducing an amount of warpage of the target. Moreover, the uniformity of the film thickness is improved by adjusting the (111) orientation ratio of the erosion part and the flange part in the target.
Abstract: A copper alloy sputtering target is provided and contains 0.01 to (less than) 0.5 wt % of at least one element selected from Al or Sn, and containing Mn or Si in a total amount of 0.25 wtppm or less. The above copper alloy sputtering target allows the formation of a wiring material for a semiconductor element, in particular, a seed layer being stable, uniform and free from the occurrence of coagulation during electrolytic copper plating and exhibits excellent sputtering film formation characteristics. A semiconductor element wiring formed with this target is also provided.
Abstract: Provided are an indium cylindrical sputtering target capable of providing good film thickness distribution and a method for production thereof. The indium cylindrical target comprises crystal grains whose average size is 1 mm to 20 mm over its surface to be sputtered. The method for manufacturing the indium cylindrical target includes the steps of: casting a semi-finished product of an indium cylindrical target integrated with a backing tube; and subjecting the semi-finished product to plastic working in its radial direction, wherein the plastic working is performed with a total thickness reduction rate of at least 10% over its longitudinal direction.
Abstract: A magnetic material sputtering target characterized in that, in a plane for observing the oxide in the target, oxide grains in the target have an average diameter of 1.5 ?m or less, and that 60% or more of the oxide grains in the observing plane of the target have a difference between a maximum diameter and a minimum diameter of 0.4 ?m or less, where the maximum diameter is a maximum distance between arbitrary two points on the periphery of an oxide grain, and the minimum diameter is a minimum distance between two parallel lines across the oxide grain. A non-magnetic grain dispersion-type magnetic material sputtering target that can inhibit abnormal discharge due to an oxide causing occurrence of particles during sputtering is obtained.
Abstract: An indium sputtering target with a short time to attain a stable film deposition rate once sputtering has begun is provided. An indium sputtering target having a surface to be sputtered with an arithmetic average roughness Ra of from 5 ?m to 70 ?m prior to sputtering.
Abstract: Provided is a ruthenium alloy sputtering target as a ruthenium alloy sintered compact target obtained by sintering mixed powder of ruthenium powder and metal powder capable of creating oxides easier than ruthenium, wherein purity of the target excluding gas components is 99.95 wt % or higher, said target contains 5 at % to 60 at % of metal capable of creating oxides easier than ruthenium, relative density is 99% or higher, and oxygen content as impurities is 1000 ppm or less. This ruthenium alloy sputtering target is capable of reducing its oxygen content, reducing the generation of arcing and particles during sputtering, increasing the target strength by improving the sintered density, and improving the deposition quality by strictly restricting the amount of B and P impurities in the target in order to prevent the compositional variability of B and P added in minute amounts to the Si semiconductor.
Abstract: A sputtering target containing, as metal components, 0.5 to 45 mol % of Cr and remainder being Co, and containing, as non-metal components, two or more types of oxides including Ti oxide, wherein a structure of the sputtering target is configured from regions where oxides including at least Ti oxide are dispersed in Co (non-Cr-based regions), and a region where oxides other than Ti oxide are dispersed in Cr or Co—Cr (Cr-based region), and the non-Cr-based regions are scattered in the Cr-based region. An object of this invention is to provide a sputtering target for forming a granular film which suppresses the formation of coarse complex oxide grains and generates fewer particles during sputtering.
Abstract: A copper heat dissipation material having a satisfactory heat dissipation performance is provided. The copper heat dissipation material has an alloy layer containing at least one metal selected from Cu, Co, Ni, W, P, Zn, Cr, Fe, Sn and Mo on one or both surfaces, in which surface roughness Sz of the one or both surfaces, measured by a laser microscope using laser light of 405 nm in wavelength, is 5 ?m or more.
Abstract: A surface treated copper foil which is well bonded to a resin and achieves excellent visibility when observed through the resin, and a laminate using the same are provided.
Abstract: There are provided a press-fit terminal which has an excellent whisker resistance and a low inserting force, is unlikely to cause shaving of plating when the press-fit terminal is inserted into a substrate, and has a high heat resistance, and an electronic component using the same. A press-fit terminal comprises: a female terminal connection part provided at one side of an attached part to be attached to a housing; and a substrate connection part provided at the other side and attached to a substrate by press-fitting the substrate connection part into a through-hole formed in the substrate. At least the substrate connection part has the surface structure described below, and the press-fit terminal has an excellent whisker resistance.
Abstract: High purity manganese having a purity of 3N (99.9%) or more, wherein number of non-metal inclusions with a size of 0.5 ?m or more is 50000 or less per 1 g of the high purity manganese. A method for producing high purity manganese, wherein refining is performed using a raw material (secondary raw material) obtained by acid-washing a manganese raw material (primary raw material) so that the produced high purity manganese has a purity of 3N (99.9%) or more, and number of non-metal inclusions with a size of 0.5 ?m or more is 50000 or less per 1 g of the high purity manganese. The present invention provides a method for producing high purity metal manganese from commercially available manganese, and aims to obtain high purity metal manganese having a low LPC.
Abstract: Provided is a backing plate obtaining by bonding an anticorrosive metal and Mo or a Mo alloy, wherein the backing plate comprises, on a surface of the Mo or Mo alloy backing plate to be cooled (cooling surface side), a layer having a thickness corresponding to 1/40 to ? of a total thickness of the backing plate and formed from an anticorrosive metal obtained by bonding one or more types of metals selected from among Cu, Al and Ti, or an alloy thereof. Additionally provided is a sputtering target-backing plate assembly obtained by bonding the foregoing Mo or Mo alloy backing plate and a target formed from a low thermal expansion material. Particularly in semiconductor applications, reductions in size have progressed and control of particles during sputtering has become stricter. The present invention aims to resolve the problem of warpage of sputtering targets formed from low thermal expansion materials and problems occurring with respect to the anticorrosive properties of Mo or Mo alloy backing plates.
Abstract: Provided is a backing plate-integrated metal sputtering target comprising a flange part that is formed integrally with a target of which periphery becomes a backing plate, wherein the flange part comprises a structure obtained by repeating partial forging. By increasing the mechanical strength of only the flange part of the target in a backing plate-integrated sputtering target as described above, it is possible to inhibit the deformation of the target during sputtering and a change in the conventional sputtering properties; thereby the formation of thin films having superior uniformity can be realized, and the yield and reliability of semiconductor products, which are being subject to further miniaturization and higher integration, can be improved.
Abstract: A backing plate integrated sputtering target includes a flange part having a Vicker's hardness (Hv) of 90 or more and a 0.2% yield stress of 6.98×107 N/m2 or more. Enhancing the mechanical strength of only the flange part of the target inhibits the target from being deformed during sputtering, and further, does not vary the original sputtering characteristics. Consequently, the target can form a thin film having excellent uniformity. This can improve the yield and the reliability of semiconductor products, which have been progressing in miniaturization and integration.
Abstract: Provided is a tabular sputtering target on which an erosion portion and a non-erosion portion are formed, and the surface area thereof exceeds 100% but is less than 125% of the surface area when the target is assumed to be planar. Also provided is a tabular sputtering target on which an erosion portion and a non-erosion portion are formed comprising one or more concave portions on the target surface region, and the surface area thereof exceeds 100% but is less than 125% of the surface area when the target is assumed to be planar. An inexpensive, small-capacity power supply unit can be used by minimizing the electrical variations in the sputtering circuit as much as possible throughout the lifespan of the target through self sputtering or high power sputtering.
Abstract: A sputtering target for a magnetic recording film which contains carbon, the sputtering target is characterized in that the ratio (IG/ID) of peak intensities of the G-band to the D-band in Raman scattering spectrometry is 5.0 or less. The sputtering target for a magnetic recording film, which contains carbon powders dispersed therein, makes it possible to produce a magnetic thin film having a granular structure without using an expensive apparatus for co-sputtering; and in particular, the target is an Fe—Pt-based sputtering target. Carbon is a material which is difficult to sinter and has a problem that carbon particles are apt to form agglomerates. There is hence a problem that carbon masses are readily detached during sputtering to generate a large number of particles on the film after sputtering. The high-density sputtering target can solve these problems.
Abstract: Provided is a target formed of a sintering-resistant material of high-melting point metal alloy, high-melting point metal silicide, high-melting point metal carbide, high-melting point metal nitride or high-melting point metal boride comprising a structure in which a target material formed of a sintering-resistant material of high-melting point metal alloy, high-melting point metal silicide, high-melting point metal carbide, high-melting point metal nitride or high-melting point metal boride and a high-melting point metal plate other than the target material are bonded. Additionally provided is a production method of such a target capable of producing, with relative ease, a target formed of a sintering-resistant material of high-melting point metal alloy, high-melting point metal silicide, high-melting point metal carbide, high-melting point metal nitride or high-melting point metal boride, which has poor machinability, can relatively easily produced.
Abstract: An oxide sintered compact made of indium (In), gallium (Ga), zinc (Zn) and oxygen (O) and represented by a formula of InxGayZnzOa [wherein x/(x+y) is 0.2 to 0.8, z/(x+y+z) is 0.1 to 0.5, and a=(3/2)x+(3/2)y+z], wherein the concentration of volatile impurities contained in the oxide sintered compact is 20 ppm or less. Provided is technology for application to the production of an IGZO target capable of achieving high densification and low bulk resistance of the sputtering target, preventing swelling and cracks of the target during the production process, minimizing the generation of nodules, inhibiting abnormal discharge, and enabling DC sputtering.