DE10212861A1 - Injection molding demolding agent comprises a silicone oil, a solid lubricant, an organic binder, a dispersant and water - Google Patents

Abstract

Injection molding demolding agent comprises a silicone oil, a solid lubricant, an organic binder, a dispersant and water.

Description

The present invention relates to an injection mold release agent, and more particularly a mold release agent of the aqueous solution type for slow injection molding, with excellent shape adhesion, heat retention and low enrichment.

Reliable thermal insulation properties when filling melts into Shapes and separation properties are usually important aspects for the Performance of mold release agents for slow injection molding for aluminum and the like can be used. With slow injection molding, poor results Thermal insulation property of a mold release agent for cooling by a Injection sleeve and mold with which the melt comes into contact, making it it becomes impossible to obtain a sufficiently uniform injection molded product. The Thermal insulation and heat resistance are particularly important when a slow injection molding is carried out at a high temperature to the quality of the To improve injection molding.

There are mold release agents of the solid lubricant dispersion type excellent heat insulation and heat resistance known, the inorganic use solid lubricants with low thermal conductivity, such as B. Graphite, boron nitrite, mica, talc and the like in the form of solid powders. Such shape Release agents of the solid lubricant dispersion type have an excellent Melting heat retention, and the molded part quality of the manufactured products is natural excellent. However, they show a tendency to aggregate and aggregate bound solid lubricant to the mold and a lump of the mold release agent in the application device and the pipeline, what a periodic cleaning is indispensable, and this is currently the most serious Factor that inhibits the productivity of a slow injection molding process.  

There is a known type of powdered solid lubricant that is uniform is pinned to a shape using a pressure differential, i. i.e., one Airflow generated by a vacuum device to the powdered solid Bring lubricant into the mold, and this process produces an excellent one Adhesion to the mold, heat retention and low build-up. Since the Adhesion to the mold, however, is achieved by the special method mentioned above such lubricants have the disadvantage of poor processability.

Although there is a need for a mold release agent that is excellent Adhesion to the shape and heat retention as well as a very low Accumulation, excellent workability and productivity, currently exists no known mold release agent that sufficiently fulfills all of these conditions.

An object of the present invention, which is in view of the Circumstances described above has been achieved, a mold release agent is ready deliver that excellent adhesion to the mold and heat retention as well as a very low build-up, excellent workability and productivity has.

This task is the subject of the present invention solved.

The present invention relates to an injection molding release agent according to Claim 1.

Preferred embodiments thereof are the subject of claims 2 to 8.

Another object is the use of a mold release according to the invention means for a slow injection molding process, as the subject of claims 9 and 10 is.  

According to the invention, an injection mold release agent is provided which thereby is characterized in that it is a silicone oil, a solid lubricant, an organic Binders, a dispersant and water. It was found that by using a mold release agent with this combination of components sets, it is possible to provide an aqueous solution type mold release agent which excellent adhesion to the mold, heat retention and low Shows accumulation. Silicone oil itself shows in comparison to oils, such as. B. mineral oils and vegetable oils, excellent heat resistance and excellent Release properties, and organic binders used as release agents are materials with excellent heat retention; inventively however, they are used in combination with water. A watery mold release medium has excellent adhesive and mold cooling properties. For use at high temperatures, however, the adhesion and thermal insulation property only unsatisfactory with the silicone oil and organic binder, and therefore a solid lubricant is added according to the invention. The dispersant is used as the mold release agent to which the solid lubricant was added Solution type to use. Through the use of silicone oil, organic bandage by means of and solid lubricant in combination it is possible compared to Mold release agents based on a dispersion of solid lubricant the amount the solid lubricant to decrease considerably, which makes it an excellent results in low accumulation property.

The mold release agent according to the invention is particularly suitable if it is for slow injection molding with an injection speed of no more than 1 m / sec is used (claim 2).

If the solid lubricant is limited to a small amount, that is not is greater than 10 wt .-%, as is the subject of claim 3, and preferred of not more than 3% by weight and in particular not more than 1% by weight, then  the accumulation property further improved and productivity increased considerably siege.

When the solid lubricant is an inorganic solid material having a thermal conductivity of not more than 0.001 cal.sec ^-1 ° C ^-1 cm ^-1 , as specified in claim 4, and preferably a siliceous material (such as e.g. Is diatomaceous earth), then it can supplement the heat insulation property of the organic binder, which is an acrylic resin (claim 7) made of methyl methacrylate or the like, in the heat insulation property to give a particularly good heat insulation property (melt heat retention), which also the amount of the solid Lubricant reduced for an even lower build-up property.

If the silicone oil used is primarily an aryl-modified silicone oil, the aromatic groups, e.g. B. phenyl or the like, the heat resistance silicone oil and improves its adhesion at high temperature, which allows its use for injection molding at high temperatures and at a contributes to better quality of the molded part. Even if the silicone oil makes up a large proportion (e.g. 30% by weight or more) of an alkenyl-modified silicone oil, it is possible, excellent adhesion and film formation of the mold release agent achieve, even if the mold temperature is not uniform (claim 6).

The injection mold release agent according to the invention preferably also comprises a surface active agent and a rust preventive or a preservative (Claim 8).

According to the invention, the use of the above is also described Injection mold release agent for a slow injection molding process in an injection speed of not more than 2 m / sec provided (claims 9 and 10).

The mold release agent according to the invention was used as a mold release agent for the Slow injection molding developed, with "slow injection molding" referring to an injection molding  with an injection speed of no more than 1 m / sec, and in general is in the range of approx. 0.1 to 0.3 m / sec. For such a slow injection molding excellent fusion heat retention is required.

The injection mold release agent according to the invention is of an aqueous type Type. An aqueous type is preferred because it has better processability in the Application in one form results.

The silicone oil for the injection mold release agent according to the invention is one Component with heat resistance, release properties and adhesion. Has silicone oil generally excellent compared to hydrocarbon-based oils Separation property and excellent heat resistance, and it is therefore for the preferred purpose according to the invention. It also shows a satisfactory one Adhesion to the form.

The content of the silicone oil in the mold release agent according to the invention is not particularly limited, but is preferably 3-20% by weight, in particular 4-15% by weight, and primarily 5-10% by weight. If the silicone oil content is too low, the heat resistance becomes inadequate, or more of the use inorganic solid lubricant, which makes the low accumulation property is deteriorated. The effect of silicone oil is exhausted when the Content is very high because the amount of water is also reduced, resulting in a Situation that has an adverse effect on the coatability and the Cooling properties can result.

Silicone oils that are used as mold release agents are known and in Commercially available, and any one can be convenient for use to be selected. As an example, SH-230 from Toray-Dow Corning Silicone Corp. to be named.  

An aryl-modified silicone oil with aromatic groups, such as. B. phenyl preferably used when the mold release agent according to the invention for a High temperature injection molding is to be used. An aryl-modified silicone oil is preferred because it has excellent heat resistance and therefore higher temperatures can be used and because it is also with regard to adhesion at high temperature is beneficial. A larger proportion of aryl modes Defected silicone oil in silicone oil is preferred, and in particular the total settles amount of the silicone oil used composed of aryl-modified silicone oil.

The silicone oil may preferably also contain an alkylalkenyl modified oil ten. Alkylalkenyl-modified silicone oil has excellent heat resistance, and excellent adhesion for silicone oil itself. In addition, the effect is achieved by the invention is more pronounced, which it combines with a binder, the combined effect with the binder also the effect of increasing the Adhesion property of the inorganic solid lubricant causes. To one To achieve such an effect, the alkylalkenyl-modified silicone oil is preferred in an amount of about 25% by weight or more, and in particular about 35% by weight or more, primarily of about 40% by weight or more.

The injection mold release agent according to the invention is an aqueous mold release medium, but contains a solid lubricant. The addition of a small amount of solid Lubricants can affect the thermal insulation properties of the aqueous mold release agent improve considerably. On the other hand, a solid lubricant can also be a high one Thermal insulation properties result when only a small amount in combination with which silicone oil is used, and therefore the accumulation property is improved, or at least the poor accumulation property does not deteriorate.

The amount of solid lubricant to be added is not particularly affected strict restrictions, but the amount is chosen to be a level that is necessary to improve the heat insulation properties, while with a view to reducing the accumulation but not in a larger amount than  required is added. In general, the accumulation property can improve and productivity can be remarkably improved by doing this solid lubricants in a small amount of not more than 10% by weight, preferably of not more than 3% by weight, and in particular of not more than 1% by weight. The lower limit will depend on the heat insulation properties of the solid powder, however, it is generally preferred that they be at least 0.05% by weight, and in particular is at least 0.1% by weight.

The solid lubricant may be one that is commonly used as a solid lubricant, and preferred examples include inorganic solid materials such as. B. boron nitride, graphite, talc, mica, molybdenum disulfide, graphite fluoride, tungsten disulfide, metal oxides, oxide glass, carbon black, kaolin and the like. Inorganic solids are preferred for the purpose of the invention because of their high heat resistance. However, in the absence of a high temperature, organic solid resin materials, fluororesin materials, silicone resin materials and the like can also be used. Because of the accumulation property of solid lubricants, it is also preferable to use a material with a low thermal conductivity so that the addition amount can be reduced to improve the low accumulation property. From this point of view, an inorganic solid material having a thermal conductivity of not more than 0.001 cal.sec ^-1 ° C ^-1 cm ^{-1 is} preferred. Particularly preferred is a material that mainly consists of silicon dioxide, such as. B. Diatomaceous Earth.

The solid lubricant is used in powder form to cover the surface of the Coating form. The particle size is not particularly limited, but a size in the range of 10-40 μm is preferred, with 20-30 μm being particularly preferred. The shape of the powder is also not limited, but powdery granules (from indefinite form), which are obtained by grinding, are with regard to the Adhesion to the shape preferred, because of its large surface and the increased thermal insulation effect due to the tightly bonded thermal insulation layer, that is formed between the granules. Particles with a spherical shape  however, can also be used because of the use of a spherical one Excellent peeling of the injection molded molded body and excellent surface properties of the product. If an inorganic solid material is used, it can be one made by joining Obtain silica or other powder with a resin or the like becomes. For example, particles comprising a fine powder of diatomaceous earth are compatible with Polyethylene wax, a higher fatty acid, a higher fatty acid salt or the like Chen is commercially available.

The mold release agent according to the invention also comprises a binder, first Line to maintain the heat of fusion. The binder used can e.g. B. be an acrylic resin or the like. As examples of acrylic resins can methyl methacrylate, 2-ethylhexyl acrylate and hexadecyl methacrylate are mentioned.

The amount of binders used depends on the type and amount of solid lubricant added, though not particularly limited it is generally in the range of 0.05-6% by weight, preferably 1-4% by weight, and in particular 2-4% by weight.

The mold release agent according to the invention also comprises a dispersant, the nature of which is not particularly limited, and can be any of the various known dispersants can be used. It is a water soluble compound preferred, and as examples can be mentioned dodecane-1,10-dicarboxylic acid salts Salts, water-soluble acrylic resins (e.g. with methacrylic acid, hydroxyethyl methacrylate, Ethylene glycol methacrylate, etc.), amide compounds and the like.

The amount of dispersant added can be at a level that is required to disperse the solid powder, and generally lies in that Range of not more than 6% by weight, preferably 0.5-5% by weight, and in particular of 1-3% by weight.  

The injection mold release agent according to the invention has an aqueous base, with water the rest according to the above components and others desired additives forms. Although there are no limits to the amount of water ren, the amount is preferably at least 70 wt .-%, in particular at least 80% by weight, and primarily at least 85% by weight. If the crowd is too low in water, the low accumulation property caused by the previous provided components is deteriorated, while if they are too is high, the problem of gas formation due to a reaction between the organi components and the melt can occur in the mold.

The injection mold release agent according to the invention can be in addition to the previous one Components mentioned contain various additives. As typical additives can be called surfactants, rust inhibitors, preservatives agents, lubricants and the like. A surfactant is added the affinity of emulsification formation between the components of the mold release by means of and to get the water. An example that can be cited is Polyoxyethylenakylether. A rust preventive or preservative is used added to protect the shape. Each is usually in a small amount of not more than 1% by weight. Can be mentioned as rust preventive organic compounds based on nitrogen and aromatic carboxylic acid salts, and as Preservatives can be called alkyl triazoles and the like.

The injection mold release agent according to the invention is preferably used for slow injection molding of aluminum, magnesium and the like is used.

According to the present invention, an aqueous solution type mold release agent is prepared which has excellent adhesion to the mold, heat retention and has low accumulation, as well as excellent processability and productivity act, and that is used for slow injection molding.

Examples example 1

A mold release agent A with the following composition was produced:

• a) Silicone oil mixture A (in which all silicone oil components polyphenylalky are silicone oils that contain phenyl groups on the side chains, however 55% by weight of components, including part of the sides chain alkyl groups are alkenyl-modified, and 45% by weight of Kompo nenten without alkenyl-modified groups) 7% by weight
• b) Diatomaceous earth particles as an inorganic solid powder (diatomaceous earth powder which is bound and granulated with a resin; 90% by weight of silicon dioxide, 6% by weight of aluminum oxide, 1% by weight of iron; average particle size 30 μm; thermal Conductivity 1.1-1.5 × 10 ^-4 cal.sec ^-1 ° C ^-1 cm ^-1 ) 0.75% by weight
• c) dispersant (water-soluble methacrylic acid) 2% by weight
• d) binder (acrylic resin) 3% by weight
• e) rust inhibitor (organic compound based on nitrogen) and Preservatives (alkyltriazole) total <1% by weight
• f) water rest

This mold release agent was used for an aluminum injection molding test under the following conditions.
Injection molding device: 350 t injection molding device
Mold release agent application: 150-200 cc / shot
Mold temperature: 300-350 ° C
Casting weight: 1800 g
Casting temperature: 700 ° C
Injection speed: 0.10-0.15 m / sec

After receiving an aluminum injection molded part in this way, the Release agent property and the adhesion to the mold, the heat retention, the Accumulation property and the internal quality of the mold release agent on the below described way determined. The results are shown in Table 1.

The mold release property was determined based on the force required is to separate the molded body from the mold, and compared with an example (Comparative Example 1 below) for the applicant's previous production was considered sufficient to assign the rating "○" when the mold separation property equivalent, the rating "" was given when it was better, one Rating of "Δ" was given when it was worse but on a still acceptable level, a rating "X" was given when it was bad, and a rating of "XX" was given when it was particularly bad.

The adhesion of the mold release agent to the mold was based on a visual inspection of the adhesion to the mold surface after application of the Mold release agent rated, and based on a measurement of the force required to to separate the molded body from the mold, as well as an existence or an Absence of peeling of the mold release carbide film on the surface of the obtained molded body. In comparison with an example (comparison below Example 1), which was considered sufficient for the previous production rated "○" if adhesion was equivalent, rated "" assigned if it was better, assigned a rating "Δ" if it was worse was, but at a still acceptable level, and assigned an "X" rating, if she was bad. An "X" rating was also given in the cases of peeling assigned.  

The enamel heat retention was determined on the basis of the observation of the Condition of the melt circulating on the body surface, and with a Product of the prior art (see Example 1) compared, with an assessment of "○" was assigned if the heat of fusion retention was equivalent, one Rating of "" was given, if it was better, a rating "Δ" became worse if it was worse but still at an acceptable level Rating "X" was given when it was bad and a rating of "XX" was awarded when it was particularly bad.

The accumulation property was evaluated based on the observation of the Mold surface condition after one hour of continuous casting, the Mold was cleaned before the casting test, and a rating of "" was given in the Awarded cases of a completely missing accumulation, a rating "○" was given in given the cases of an accumulation of traces, an evaluation "Δ" was made in cases awarded where the accumulation was still at an acceptable level, and an evaluation of "X" was given in cases similar to those of the prior art was equivalent.

The internal quality was assessed on the basis of blistering in the Cross section of the molded body, and an evaluation of "" was made in the cases awarded that were better than the state of the art, a rating "○" was given in Award cases that were equivalent to the state of the art and an evaluation "X" was awarded in cases that were worse than that of the prior art.

Example 2

The injection molding was carried out in the same manner as in Example 1 with except that 12 wt% mica was used as a solid powder instead of diatomaceous earth were used.  

The mold release property and the adhesion to the mold, the heat of fusion retention, the accumulation property and the internal quality of the mold release agent were determined in the same manner as described in Example 1. The results are given in Table 1.

Example 3

The injection molding was carried out in the same manner as in Example 1 with with the exception that the silicone oil mixture A by 7 wt .-% silicone oil mixture B (a Mixture in which all silicone oil components polyphenylalkyl silicone oils, the Phenyl groups on the side chains are, but 35 wt .-% of components in which a portion of the side chain alkyl groups are alkenyl modified and 65 wt .-% of components with non-alkenyl-modified groups) was replaced.

The mold release property and the adhesion to the mold, the enamel heat retention, the accumulation property and the internal quality of the mold release were determined in the same manner as in Example 1. The results are in given in Table 1.

Example 4

The injection molding was carried out in the same manner as in Example 1, with the Exception that as an inorganic solid powder 0.75 wt .-% diatomaceous earth 1% by weight of mica was replaced.

The mold release properties and the adhesion to the mold, the heat of fusion retention, the accumulation properties and the internal quality of the mold release agent were determined in the same manner as described in Example 1. The results are given in Table 1.

Comparative Example 1

The injection molding was carried out under the same conditions as in Example 1, using a mold release agent having the following composition:

• a) mica: 20% by weight
• b) synthetic resin (binder on inorganic base): 4% by weight
• c) High molecular weight hydrocarbon (medium Molecular weight: 700): 2% by weight
• d) Water: rest.

This mold release agent was not a solid mold release agent, but was made for one better application processability of an essentially solid mold release agent (Mica) produced as an aqueous solution type, and was the applicant of the ing invention used in the applicant's company.

The mold release properties and the adhesion to the mold, the heat of fusion retention, accumulation properties and the internal quality of the mold release agent were determined in the same manner as in Example 1. The results are given in Table 1.

Comparative Example 2

The injection molding was carried out in the same manner as in Example 3 with except that no inorganic solid powder was used at all.

The mold release properties and the adhesion to the mold, the heat of fusion retention, accumulation properties and the internal quality of the mold release agent were determined in the same way in Example 1. The results are in Table 1 specified.  

Comparative Example 3

The injection molding was carried out in the same manner in Example 1, with the Exception that no dispersant was used.

The mold release properties and the adhesion to the mold, the heat of fusion retention, accumulation properties and the internal quality of the mold release agent determined in the same manner as described in Example 1. The results are in Table 1 given.

Comparative Example 4

The injection molding was carried out in the same manner as in Example 1 with except that no binder was used.

The mold release properties and the adhesion to the mold, the heat of heat retention, accumulation properties and the internal quality of the mold release agent were determined in the same way as described in Example 1. The results are shown in Table 1.

Claims (10)

1. Injection mold release agent, characterized in that it comprises a silicone oil, a solid lubricant, an organic binder, a dispersing agent and water. 2. Injection mold release agent according to claim 1, characterized in that it is a Mold release agent for slow injection molding with one injection speed of not more than 1 m / sec. 3. Injection mold release agent according to claim 1 or 2, characterized in that it is 3-20% by weight of the silicone oil, 0.5-10% by weight of the solid lubricant, 0.5-6% by weight of the organic binder and 0.5-6% by weight of the dispersant includes. 4. Injection mold release agent according to claim 1, 2 or 3, characterized in that the solid lubricant is an inorganic solid material with a thermal conductivity of not more than 0.001 cal.sec ^-1 ° C ^-1 cm ^-1 . 5. Injection mold release agent according to claim 4, characterized in that the inorganic solid material is a siliceous material. 6. Injection mold release agent according to one of claims 1 to 5, characterized characterized in that the silicone oil consists mainly of a silicone oil aromatic groups, and at least 30 wt .-% of an alkenyl contains modified silicones. 7. Injection mold release agent according to one of claims 1 to 6, characterized characterized in that the binder contains an acrylic resin.   8. Injection mold release agent according to one of claims 1 to 7, characterized characterized in that it is also a surfactant and a Antirust or a preservative. 9. Use an injection mold release agent that is a silicone oil, a solid Lubricant, an organic binder, a dispersant and water contains, for slow injection molding at an injection speed of not more than 1 m / sec. 10. Use according to claim 9, characterized in that the injection molding Mold release agent is an injection molding release agent according to one of claims 2 to 8 is.