Sanitary equipment part and method of producing the same
Abstract
To provide a sanitary facility member having excellent ease of contamination removal and excellent persistence of ease of contamination removal. A sanitary facility member including: a base material, at least the surface of which includes a metal element; a metal oxide layer formed on the surface of the base material; and an organic layer provided on the metal oxide layer; wherein the metal element is at least one element selected from the group consisting of Cr, Zr, and Ti, the metal oxide layer includes at least the metal element and an oxygen element, and the organic layer is bonded to the metal oxide layer by bonding (M-O—P bonding) of the metal element (M) and a phosphorus atom (P) of at least one group (X) selected from a phosphonic acid group, a phosphoric acid group, and a phosphinic acid group via an oxygen atom (O), the group X being bonded to a group R (where R is a hydrocarbon or a group having an atom other than carbon in 1 or 2 locations in a hydrocarbon group).
Claims
exact text as granted — not AI-modifiedWhat is claimed is:
1 . A sanitary equipment part comprising:
a base material having a metal element on a surface thereof; a layer of metal oxide formed on the base material; and a layer of organic compound provided on the layer of metal oxide, wherein the metal element is at least one selected from the group consisting of Cr, Zr, and Ti, the layer of metal oxide contains a metal element which is at least one selected from the group consisting of Cr, Zr, and Ti and an oxygen element, the layer of organic compound is present on a surface of the sanitary equipment part, when the surface of the sanitary equipment part is measured using X-ray photoelectron spectroscopy (XPS) with wide scan analysis according to condition 1, the metal element (M), a phosphorus atom (P), an oxygen atom (O), and a carbon atom (C) are detected, and a phosphorus atom concentration on the surface of the sanitary equipment part, which is calculated from a peak area of a P2p spectrum measured according to condition 1 by X-ray photoelectron spectroscopy (XPS), is 1.0 at % or more and 10 at % or less, and when the surface of the sanitary equipment part is measured according to condition A by time-of-flight secondary ion mass spectrometry (TOF-SIMS), a fragment represented by the general formula R—X (R is a hydrocarbon group or a group having an atom other than carbon at one or two positions in the hydrocarbon group and no halogen atoms, and X is at least one selected from a phosphonic acid group, a phosphoric acid group, and a phosphinic acid group).
(Condition 1)
X-ray condition: monochromatic AlKα ray (output 25 W)
Photoelectron take-off angle: 45°
Analysis area: 100 μmφ
Scanning range: 15.5 to 1100 eV
(Condition A)
Primary ions to be emitted: 209 Bi 3 ++
Primary ion acceleration voltage: 25 kV
Pulse width: 10.5 or 7.8 ns
Bunching: on
Electrification neutralization: off
Post acceleration: 9.5 kV
Measurement range (area): about 500×500 μm 2
Secondary ions to be detected: Positive and Negative
Cycle Time: 110 μs
Scan count: 16
2 . The sanitary equipment part according to claim 1 , wherein in the layer of organic compound, one end of R, which is an end that is not a bonding end with X, is made up of C and H.
3 . The sanitary equipment part according to claim 2 , wherein R is a hydrocarbon group made up of C and H.
4 . The sanitary equipment part according to claim 1 , wherein in the layer of organic compound, X is made up of phosphonic acid.
5 . The sanitary equipment part according to claim 1 , wherein the layer of organic compound is a monolayer.
6 . The sanitary equipment part according to claim 5 , wherein the layer of organic compound is a self-assembled monolayer.
7 . The sanitary equipment part according to claim 1 , wherein an oxygen atom/metal atom concentration ratio (O/M ratio) on the surface of the sanitary equipment part, which is calculated from peak areas of an O1s spectrum and a metal spectrum measured according to condition 1 by X-ray photoelectron spectroscopy (XPS), is greater than 1.7.
8 . The sanitary equipment part according to claim 1 , wherein a carbon atom concentration on the surface of the sanitary equipment part, which is calculated based on a peak area of a C1s spectrum measured according to condition 1 by X-ray photoelectron spectroscopy (XPS), is 43 at % or more.
9 . The sanitary equipment part according to claim 1 , wherein the sanitary equipment part is a faucet.
10 . The sanitary equipment part according to claim 9 , wherein the sanitary equipment part is a faucet that discharges warm water.
11 . A method of producing the sanitary equipment part according to claim 1 , the method comprising:
preparing a base material; increasing a degree of oxidation of a surface of the base material; and applying a compound represented by a general formula R—X, where R is a hydrocarbon group, and X is at least one selected from a phosphonic acid group, a phosphoric acid group, and a phosphinic acid group.Cited by (0)
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