JP6090664B2 - Clay-like composition for sintered noble metal - Google Patents

Description

The present invention relates to a noble metal clay .

  Conventionally, for example, jewelry and art crafts made of precious metals such as rings are generally manufactured by casting or forging a precious metal-containing material such as silver or gold.

However, in recent years, precious metal clays containing precious metal powders such as silver and gold have been marketed, and precious metal jewelry and arts and crafts having any shape can be obtained by molding the precious metal clay into an arbitrary shape and then firing it. A method of manufacturing a product has been proposed (see, for example, Patent Documents 1 to 3).

According to such a method, precious metal clay can be freely modeled in the same manner as normal clay work, and after drying the molded body obtained by modeling, it is fired using a heating furnace. It is possible to manufacture jewelry made of precious metals, arts and crafts, etc. very easily.

Japanese Patent No. 4265127 JP-A-4-26707 JP 2005-187858 A

When manufacturing this noble metal sintered body , it is first necessary to model silver clay using pure Ag silver powder, but since such modeling is mainly performed manually, In some cases, the clay dries out and it becomes difficult to perform processing such as bending. In particular, the shape of the precious metal sintered body is complicated due to diversification in design and preference, and the time required for the shaping tends to be long. Specifically, if a dried clay body is bent, the conventional product will crack on the surface, and if it is further bent, it will break. Therefore, when making a ring or the like, it is necessary to perform modeling in a limited time, and the design is limited.
In view of such circumstances, the present invention has been completed as a result of intensive research for the following purposes.

The present invention, in the course shaped precious metal clay, even after the noble metal clay is dried, has excellent flexibility and bending property, as a result, the noble metal can be lengthened shaping time such as bending Clay The purpose is to provide.

To the present inventors to solve the above problems, noble metal viscous soil, attempts to add various organic, the type of additive components and the optimum amount of extensive studies about the result, a predetermined amount of propylene glycol It has been found that, by adding, it is possible to have sufficient flexibility and bending workability even after the noble metal clay is dried during the shaping of the noble metal clay.
Furthermore, as a result of repeated detailed experiments, it has been found that a better effect can be obtained by adding one or both of glycerin and polyethylene glycol than by adding propylene glycol alone.
The present invention has been made on the basis of the above-mentioned knowledge, and the configuration and the background to arrive at the present invention will be described below.

The noble metal clay for forming a noble metal sintered body of the present invention contains, for example, a powder containing gold or silver or a silver alloy as a noble metal, at least an organic binder such as methylcellulose, water, and at least as an additive component. It contains a predetermined amount of propylene glycol.

As described above, propylene glycol is widely used as a solvent, and is used for adjusting the viscosity by adding it to a solution, or by adding water retention to foods and cosmetics. However, it has not been known at all what properties are exhibited by drying during molding in addition to noble metal clay .

The present inventors, in order to attain the above object, the type and amount of the additive to be added to the precious metal clay, the characteristics of the noble metal clay, flexibility after drying by shaping, bending the viewpoint of workability and shapability Was evaluated.
As a result of continuing intensive studies based on the evaluation results, the present inventors have come up with the following present invention.

That is, the present invention
“(1) a precious metal clay containing at least a precious metal powder and / or a precious metal alloy powder, an organic binder, an organic additive, and water,
The noble metal clay is characterized in that the organic additive is 0.1 to 3.0% by mass of propylene glycol with respect to the whole noble metal clay .
(2) The precious metal clay according to (1), further comprising glycerin as the organic additive.
(3) The noble metal clay according to (1) or (2), further comprising polyethylene glycol as the organic additive. "
It has the characteristics.

Next, the noble metal clay of the present invention will be described in detail.
(A) Noble metal powder, noble metal alloy powder As the noble metal powder and noble metal alloy powder used in the present invention, gold powder, silver powder, copper powder, platinum powder, and alloy powders thereof can be used. A mixed powder of silver powder and copper powder can also be used. As the silver alloy powder, a silver-copper alloy is preferably used. These noble metal powders and / or noble metal alloy powders are the main components constituting noble metal clay . In order to achieve the effect of the present invention, the content is not a dominant condition, but in constituting a more practical noble metal clay , the content is 50% by mass or more and 95% by mass or less. It is preferable. That is, when the content is less than 50% by mass, the texture and gloss of the noble metal are not obtained, and when it exceeds 95% by mass, the elongation and strength of the noble metal clay are lowered, which is not preferable.

(B) Organic Binder The organic binder used in the present invention is at least one or more of cellulose binder, polyvinyl binder, acrylic binder, wax binder, resin binder, starch, gelatin, and wheat flour. You may comprise by the combination of these. Of the above, it is most preferable to use a cellulose-based binder, particularly water-soluble cellulose such as methylcellulose.

(C) Organic additive Propylene glycol is used as the organic additive used in the present invention. However, when the content is less than 0.1% by mass, the flexibility of the noble metal clay is lowered and the effect expected by the present invention is not sufficiently achieved. On the other hand, when the content exceeds 3.0% by mass, the formability as noble metal clay is deteriorated, and it becomes difficult to mold. Therefore, the content of propylene glycol is set to 0.1 to 3.0% by mass.
Furthermore, by adding glycerin and / or polyethylene glycol in addition to propylene glycol, the flexibility of the noble metal clay after drying is further improved.
In the case of adding glycerin and polyethylene glycol, it is desirable to adjust the total content of propylene glycol, glycerin and polyethylene glycol to be 0.1 to 3.0% by mass. Glycerin and polyethylene glycol are liquid substances having both hydrophilic and oleophilic properties, and are known to give viscosity when added to noble metal clay. By adding to the noble metal clay , the present inventors have found that the effect that the flexibility is hardly lowered even when the noble metal clay is dried is more increased than when propylene glycol is added alone. Based on knowledge.

Furthermore, the noble metal clay of the present invention may further contain at least one of fats and oils, olive oil, and a surfactant as necessary.

  Examples of the fats and oils include organic acids (oleic acid, stearic acid, phthalic acid, palmitic acid, sepacic acid, acetylcitric acid, hydroxybenzoic acid, lauric acid, myristic acid, caproic acid, enanthic acid, butyric acid, capric acid). , Organic acid esters (organic acid esters having methyl, ethyl, propyl, butyl, octyl, hexyl, dimethyl, diethyl, isopropyl, and isobutyl groups), higher alcohols (octanol, nonanol, decanol) And polyhydric alcohols (glycerin, arabit, sorbitan), ethers (dioctyl ether, didecyl ether) and the like.

The surfactant is added to and mixed with the noble metal clay , thereby pulverizing a solid material generated by the reaction between the binder and water and improving the mixing property between the noble metal powder and the binder. The kind of surfactant is not specifically limited, A normal surfactant can be used. Surfactant is a generic term for substances that have water-friendly parts (hydrophilic groups) and oil-friendly parts (lipophilic groups / hydrophobic groups) in the molecule. Polyethylene glycol in the invention is also included in the surfactant. However, the term “surfactant” as used herein refers to the one excluding the polyethylene glycol added in anticipation of the action specific to the present invention, and the dispersion / aggregation action, foaming / defoaming action, wettability improvement, flexibility Examples thereof include sodium lauryl sulfate and polyoxyethylene alkyl ether added in a predetermined amount for a smoothing action, an antistatic action and the like.

The precious metal sintered body can be manufactured by kneading the precious metal clay described above, forming the precious metal clay into a predetermined shape, and then firing.

According to precious metal clay present invention, noble metal powders and / or noble metal alloy powder, organic binder, a noble metal clay containing at least an organic additive and water, the organic additive is 0.1 to 3.0 mass % Propylene glycol has excellent flexibility and bending workability even after the precious metal clay is dried in the middle of molding, and as a result, there are time constraints when processing such as bending. Less precious metal clay can be provided.

The photograph of the noble metal clay which concerns on this invention example 3 which was able to shape | mold into the plate shape of thickness 3mm entirely. A photograph of the precious metal clay according to Comparative Example 2 that partially restored even after extension and could not be formed into a 3 mm thick plate overall.

Below, one Embodiment of the noble metal clay which concerns on this invention is described.
The noble metal clay according to the present invention contains at least noble metal powder and / or noble metal alloy powder, an organic binder, an organic additive and water, and particularly contains 0.1 to 3.0% by mass of propylene glycol as an organic additive. To do. Furthermore, it is desirable to contain glycerin or polyethylene glycol as the organic additive.
Here, in addition to the organic binder, the organic additive, and water, a surfactant, fats and oils, and olive oil may be added as necessary.

The manufacturing method of the noble metal clay demonstrated in this embodiment is demonstrated . First, methyl cellulose, surfactant, olive oil, propylene glycol, glycerin, polyethylene glycol and water as an organic binder are stirred and mixed in a stirring vessel. This binder mixed solution is introduced into the kneading apparatus together with the silver powder.
In this embodiment, propylene glycol, glycerin, and polyethylene glycol are added during the stirring and mixing of the binder mixed solution, but an organic binder, silver powder, and water can be added during the kneading in the kneading apparatus.
In the present embodiment, the stainless steel kneading container of the kneading apparatus is a container whose inner wall is coated with CrN. The CrN coating has excellent wear resistance and lubricity, so it is possible to suppress Fe contamination.

In a kneading apparatus, silver powder, a binder mixed solution and water were kneaded to prepare noble metal clay having the composition shown in Table 1.
In the present embodiment, the silver powder is used as the noble metal powder. However, since the action of propylene glycol does not act specifically on the silver powder, the noble metal powder is a gold powder or a silver alloy. Other noble metal powders usually used for noble metal clay , such as powder, may be used.

[Evaluation method]
The precious metal clay shown in Table 1 was evaluated for Mayer hardness, bending workability, and formability.
(Meyer hardness)
In the Meyer hardness measurement, a steel ball is placed on a certain amount of dried clay, and a value obtained by dividing the applied load by the cross-sectional area of the recessed portion is obtained. The lower this value is, the softer, that is, the higher the flexibility even when the noble metal clay is dried.

In this example, measurement was performed with a sample size: φ20 mm, a thickness: 3 mm, and a steel ball mass: 140 g, that is, a load [N]: 0.14 × 9.8 (gravity acceleration).
Table 2 shows the results of evaluation with respect to three dry states of 0% by mass, 2.0% by mass, and 3.2% by mass.

(Bending workability)
After molding the precious metal clay shown in Table 1 into a plate having a length of 60 mm, a width of 5 mm, and a thickness of 2 mm, it is stored in a constant temperature and humidity chamber at room temperature and humidity of 40% for the time shown in Table 1, and then into a cylindrical shape of φ17 mm Winding was performed to evaluate cracks generated on the surface . A case where the crack of more than 1mm on the surface of the noble metal clay did not occur was evaluated as "○", was a case in which more than crack 1mm occurred was evaluated as "×". The evaluation results are shown in Table 2.

(Formability)
For forming a noble metal clay 10g shown in Table 1 in a thickness of 3mm plate, when wrought precious metal clay and evaluated whether it plastic in a plate shape. The case where it was able to be formed into a plate having a thickness of 3 mm as a whole was evaluated as “◯”. “×”. FIG. 1 shows a photograph of the precious metal clay of Example 3 of the present invention which was formed into a plate shape having a thickness of 3 mm as a whole. FIG. The photograph of the noble metal clay of the comparative example 2 which could not be shape | molded in the shape is shown. The results of this evaluation are shown in Table 2.

The inventive examples 1 to 7 from Table 2 was added 0.1 to 3.0 wt% propylene glycol in precious metal clay, after reduction noble clay mass Mayer hardness becomes low, and dried in shaping work Even was able to maintain flexibility. Further, it was found that the bending workability was not inferior even after long-term storage in a constant temperature and humidity chamber, and the formability was sufficient. On the other hand, in Comparative Example 1 in which propylene glycol was not added, the Mayer hardness was increased after the mass was decreased, and the bendability was deteriorated. Moreover, in Comparative Example 2 in which 3.8% by mass of propylene glycol was added, the result was inferior in the formability because of too much elasticity.

The present invention has excellent flexibility and bending workability even when the precious metal clay is dried in the middle of modeling, and as a result, there are few time restrictions when processing such as bending, and the molding performance is also low. Provide excellent precious metal clay . Moreover, the noble metal sintered body can be produced by kneading the noble metal clay of the present invention, forming the noble metal clay into a predetermined shape, and then firing it.

Claims (3)

A noble metal clay containing at least a noble metal powder and / or a noble metal alloy powder, an organic binder, an organic additive and water,
The noble metal clay is characterized in that the organic additive is 0.1 to 3.0% by mass of propylene glycol with respect to the whole noble metal clay . The noble metal clay according to claim 1, further comprising glycerin as the organic additive. The noble metal clay according to claim 1 or 2, further comprising polyethylene glycol as the organic additive.