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JPH04356146A - Method for forming pearl - Google Patents

Method for forming pearl

Info

Publication number
JPH04356146A
JPH04356146A JP3126438A JP12643891A JPH04356146A JP H04356146 A JPH04356146 A JP H04356146A JP 3126438 A JP3126438 A JP 3126438A JP 12643891 A JP12643891 A JP 12643891A JP H04356146 A JPH04356146 A JP H04356146A
Authority
JP
Japan
Prior art keywords
pearl
mother
antibacterial
calcium phosphate
hydroxyapatite
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
JP3126438A
Other languages
Japanese (ja)
Inventor
Shuji Sakuma
周治 佐久間
Kiminori Atsumi
公則 渥美
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Sangi Co Ltd
Original Assignee
Sangi Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Sangi Co Ltd filed Critical Sangi Co Ltd
Priority to JP3126438A priority Critical patent/JPH04356146A/en
Publication of JPH04356146A publication Critical patent/JPH04356146A/en
Pending legal-status Critical Current

Links

Classifications

    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02ATECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
    • Y02A40/00Adaptation technologies in agriculture, forestry, livestock or agroalimentary production
    • Y02A40/80Adaptation technologies in agriculture, forestry, livestock or agroalimentary production in fisheries management
    • Y02A40/81Aquaculture, e.g. of fish

Landscapes

  • Farming Of Fish And Shellfish (AREA)

Abstract

PURPOSE:To enhance both the survival ratio of a pearl oyster and the productivity of pearls by preventing various germs from propagating in the mother pearl nucleus. CONSTITUTION:A pearl mother nucleus formed as a spherical shape calcium phosphate to be an antimicrobial substance is inserted into a pearl oyster to form pearls in the pearl oyster. Thereby, various germs are prevented from entering tissues of the pearl oyster. Furthermore, silver (Ag), copper (Cu)and zinc (Zn) supported on the calcium phosphate can be used as the antimicrobial metal to be supported. In addition, similar action and effects are also obtained even by using a pearl mother nucleus prepared by forming a composite material containing the antimicrobial calcium phosphate (including antimicrobial hydroxyapatite) in a resin into a spherical shape.

Description

【発明の詳細な説明】[Detailed description of the invention]

【0001】0001

【産業上の利用分野】本発明は、真珠の形成方法に関し
、更に詳しくは、抗菌性ハイドロキシアパタイトを真珠
母核として用いる真珠の形成方法に係わる。
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for forming pearls, and more particularly to a method for forming pearls using antibacterial hydroxyapatite as a nacreous core.

【0002】0002

【従来の技術】従来、この種の真珠の形成方法としては
、例えば、ビクトウ貝,赤貝等の貝殻を球状に研磨加工
したものを真珠母核として用い、この真珠母核を、アコ
ヤ貝,クロチョウ貝,シロチョウ貝,アベ貝等の真珠貝
の殻と体内の間に核入れして真珠を形成する方法が行な
われている。
[Prior Art] Conventionally, as a method for forming this type of pearl, for example, shells of Victoria oysters, red oysters, etc., polished into spherical shapes were used as mother-of-pearl cores. A method is used to form pearls by inserting the nucleus between the shell and the body of pearl oysters such as oysters, white oysters, and pearl oysters.

【0003】また、他の従来方法としては、真珠母核と
して金属或は有色材で、貝殻で形成した球状体の表面を
構成したものが知られている(特開昭59−20343
6号)。
[0003] Another conventional method is known in which the surface of a spherical body formed from a shell is made of a metal or colored material as a nacre core (Japanese Patent Laid-Open No. 59-20343).
No. 6).

【0004】0004

【発明が解決しようとする課題】しかしながら、このよ
うな従来方法の前者にあっては、真珠母核を天然の貝殻
で形成しているため、その貝の数が少なくなりつつある
という問題を有している。
[Problem to be Solved by the Invention] However, in the former of these conventional methods, since the mother-of-pearl core is formed from natural shells, there is a problem that the number of shells is decreasing. are doing.

【0005】また、後者においては、合金を含めた金属
或は有色材で球状体の表面を構成しており、この表面部
の構成材として、金,白金,ニッケル,クロム等の単一
金属及びこれらの合金や、着色合成樹脂塗料の塗料被膜
等が用いられるものであるため、真珠貝の組織に対する
生体的親和性を高めたとしても、その親和性の度合いに
は限界を有していた。また、やはり母核にビクトウ貝等
の貝殻を球状体としたものを用いているため、天然物の
減少に伴なう問題を有していることは、上記した前者と
同様である。
In the latter case, the surface of the spherical body is made of metals including alloys or colored materials, and single metals such as gold, platinum, nickel, chromium, etc. Since these alloys and coatings of colored synthetic resin paints are used, even if the biocompatibility with the tissue of mother-of-pearl oysters was improved, there was a limit to the degree of the affinity. In addition, since the mother nucleus is made of a spherical shell such as a snail, it has the same problem as the former described above, which is associated with a decrease in natural products.

【0006】さらに、真珠貝に真珠母核を核入れするに
際し、真珠母核に付着している細菌などに起因して真珠
貝の組織に病変が生じ、真珠貝が死亡する確率が高かっ
た。特に、天然の貝殻は雑菌が繁殖し易い問題点があっ
た。
Furthermore, when a mother-of-pearl nucleus is inserted into a mother-of-pearl, there is a high probability that lesions will occur in the tissues of the mother-of-pearl due to bacteria adhering to the mother-of-pearl, resulting in the death of the mother-of-pearl. In particular, natural seashells have the problem of easy breeding of bacteria.

【0007】[0007]

【課題を解決するための手段及び作用】そこで、本発明
は、抗菌性リン酸カルシウムを球状に形成した真珠母核
又は、樹脂に抗菌性リン酸カルシウムを含有させた複合
材料を球状に形成した真珠母核を、真珠貝に核入れして
、該真珠貝に真珠を形成させることを、その解決方法と
している。
[Means and effects for solving the problems] Therefore, the present invention provides a mother-of-pearl core formed into a spherical form of antibacterial calcium phosphate, or a mother-of-pearl nucleus formed into a spherical form of a composite material containing antibacterial calcium phosphate in a resin. The solution to this problem is to insert a nucleus into a pearl oyster and allow the pearl oyster to form a pearl.

【0008】現在、世界中に分布する貝類は、その貝殻
の主成分が炭酸カルシウム(CaCO3)で構成される
ものが多いが、古生代の貝殻は、現在でもシャミセン貝
に見られるように、リン(P)を多く取り込んだリン酸
カルシウムを主成分としていたことが知られている。こ
のように、貝殻の主成分がリン酸カルシウムから炭酸カ
ルシウムに変化してきた過程には、海水中のリンがだん
だん不足してきたことに起因している。このため、本来
リン酸カルシウムを構成要素とするリン酸カルシウム系
化合物、例えば抗菌性ハイドロキシアパタイト等の抗菌
性リン酸カルシウム,ハイドロキシアパタイト,第2リ
ン酸カルシウム,第3リン酸カルシウム,第4リン酸カ
ルシウム,第8リン酸カルシウム,ピロリン酸カルシウ
ム等は、真珠貝に対する生体親和性が高いということが
できる。
Currently, many of the shells of shellfish distributed all over the world are composed of calcium carbonate (CaCO3), but shells from the Paleozoic era still contain phosphorus (as seen in the Chamisen shellfish). It is known that the main component was calcium phosphate that incorporated a large amount of P). The process in which the main component of seashells changed from calcium phosphate to calcium carbonate is due to the gradual lack of phosphorus in seawater. Therefore, calcium phosphate compounds that originally contain calcium phosphate, such as antibacterial calcium phosphate such as antibacterial hydroxyapatite, hydroxyapatite, dibasic calcium phosphate, tertiary calcium phosphate, quaternary calcium phosphate, VIII calcium phosphate, calcium pyrophosphate, etc. It can be said that it has high biocompatibility with shellfish.

【0009】斯る生体親和性を有することにより、抗菌
性リン酸カルシウム、又は、樹脂に抗菌性リン酸カルシ
ウムを含有させた複合材料を球状に形成して成る真珠母
核を真珠貝に入れた場合、真珠層が巻き付き易くなる。
Due to this biocompatibility, when a mother-of-pearl core made of a spherical form of antibacterial calcium phosphate or a composite material containing antibacterial calcium phosphate in a resin is placed in a mother-of-pearl, the mother-of-pearl layer becomes easier to wrap around.

【0010】また、抗菌性リン酸カルシウムは、蛍光性
を有しているため、形成された真珠の外観の光特性を向
上する。
[0010] Furthermore, since the antibacterial calcium phosphate has fluorescence, it improves the optical characteristics of the appearance of the formed pearls.

【0011】さらに、例えば銀をリン酸カルシウムに担
持して成る抗菌性ハイドロキシアパタイト等の抗菌性リ
ン酸カルシウムの球状体又は、抗菌性リン酸カルシウム
を樹脂に含有させた複合材料の球状体は、真珠貝に核入
れされた後も抗菌作用を有するため、真珠貝の雑菌によ
る死亡を防止する。
Furthermore, spheroidal bodies of antibacterial calcium phosphate such as antibacterial hydroxyapatite, which is made by supporting silver on calcium phosphate, or spherical bodies of a composite material in which antibacterial calcium phosphate is contained in a resin, can be cored in a mother-of-pearl. Since it has an antibacterial effect even after it has been washed, it prevents the death of pearl oysters due to bacteria.

【0012】0012

【実施例】以下、本発明に係る真珠の形成方法の詳細を
実施例に基づいて説明する。
EXAMPLES The details of the method for forming pearls according to the present invention will be explained below based on examples.

【0013】本実施例は、先ず、銀担持抗菌性ハイドロ
キシアパタイトを、通常のセラミックス等に用いるラバ
ープレス等のバインダーを用いて粒径6.5〜7.5m
mの球状に形成して、真珠母核とする。
In this example, silver-supported antibacterial hydroxyapatite was first prepared with a particle size of 6.5 to 7.5 m using a binder such as a rubber press used for ordinary ceramics.
It is formed into a spherical shape of m to form a mother-of-pearl nucleus.

【0014】次に、この真珠母核を真珠貝の殻と体内の
間に、他のアコヤ貝などから摘出した外套膜の切り端と
伴に配置(核入れ)し、通常の真珠形成工程と同様に真
珠貝を海中で育成する。
Next, this mother-of-pearl nucleus is placed between the shell and the body of a mother-of-pearl oyster along with the cut end of the mantle extracted from other Akoya oysters (nucleus insertion), and the normal pearl-forming process is carried out. Similarly, pearl oysters are grown underwater.

【0015】なお、本実施例によって形成した真珠にお
いては、銀担持抗菌性ハイドロキシアパタイトの蛍光性
に起因し外観の光特性が良好であり、審美性を向上する
ことが可能である。
[0015] The pearls formed according to this example have good optical characteristics in appearance due to the fluorescence of silver-supported antibacterial hydroxyapatite, and can improve aesthetics.

【0016】上記した実施例においては、銀担持抗菌性
ハイドロキシアパタイトの粒径を6.5〜7.5mmに
設定したが、これに限られるものではなく、目的とする
真珠の粒径に応じて真珠母核の粒径を適宜変更すること
が可能であり、例えば、大粒径の真珠を得たい場合は、
真珠母核の粒径を20〜30mm程度に大きくすること
も可能となる。そして、このように真珠粒径を大きくし
ても、母核であるハイドロキシアパタイトが蛍光性を有
するため、母核上の真珠層が薄くても外観の審美観を損
なうことがなく、むしろ良好な輝きを得ることが可能と
なる。
[0016] In the above-mentioned examples, the particle size of the silver-supported antibacterial hydroxyapatite was set to 6.5 to 7.5 mm, but it is not limited to this, and it can be adjusted depending on the particle size of the target pearl. It is possible to change the particle size of the mother-of-pearl core as appropriate. For example, if you want to obtain a pearl with a large particle size,
It is also possible to increase the particle size of the mother-of-pearl core to about 20 to 30 mm. Even if the pearl grain size is increased in this way, the mother nucleus, hydroxyapatite, has fluorescence, so even if the nacre layer on the mother nucleus is thin, it does not impair the aesthetic appearance of the pearl. It is possible to get shine.

【0017】また、上記実施例においては、銀担持抗菌
性ハイドロキシアパタイトを単に球状に形成して真珠母
核としたが、ハイドロキシアパタイトに顔料を含有させ
ることにより、例えば、ピンク,ブルー,エメラルドグ
リーン等の色を備えた真珠を形成することも可能である
。特に、ハイドロキシアパタイトは、その分子構造中に
空洞を有し、その空洞中に顔料を吸収し易いため、顔料
の添加が容易となる。
Furthermore, in the above embodiment, the silver-supported antibacterial hydroxyapatite was simply formed into a spherical shape to form a mother-of-pearl core, but by incorporating a pigment into the hydroxyapatite, for example, pink, blue, emerald green, etc. It is also possible to form pearls with a color of . In particular, hydroxyapatite has cavities in its molecular structure, and pigments can be easily absorbed into these cavities, making it easy to add pigments.

【0018】抗菌性ハイドロキシアパタイトは、ハイド
ロキシアパタイト、又はそのOH基の一部をフッ素また
はヨウ素で置換したアパタイト類の、Caイオンの一部
を抗菌性金属イオンで置換して安定化し、且つこれらア
パタイト類の持つ分子構造の細孔内に抗菌性金属イオン
が取り込まれていることを特徴とする抗菌性ハイドロキ
シアパタイト類であり、場合によっては一部リン酸抗菌
性金属塩を共存することもありえる。ここに記した抗菌
性金属及び金属イオンは銀(Ag)であるが、この他銅
及び亜鉛の金属及びそれらのイオンを意味している。こ
のようにしてえられる抗菌性ハイドロキシアパタイトは
いずれも安定で、耐熱性がある。
Antibacterial hydroxyapatite is made by stabilizing hydroxyapatite or apatites whose OH groups are partially replaced with fluorine or iodine by replacing part of the Ca ions with antibacterial metal ions, and Antibacterial hydroxyapatites are characterized by the fact that antibacterial metal ions are incorporated into the pores of their molecular structure, and in some cases, antibacterial metal salts of phosphate may coexist in some cases. The antibacterial metal and metal ion mentioned herein is silver (Ag), but also includes copper and zinc metals and their ions. All of the antibacterial hydroxyapatites obtained in this way are stable and heat resistant.

【0019】抗菌性ハイドロキシアパタイトは、ハイド
ロキシアパタイト合成時に抗菌性金属塩を共存させるこ
とにより、或はハイドロキシアパタイトに金属塩を反応
させることにより容易に製造することができる。即ちN
a2HPO4及び抗菌性金属塩即ち銀、銅、亜鉛などの
金属塩を含有する水溶液を撹拌しながら塩化カルシウム
水溶液を滴下し常法によりハイドロキシアパタイトを合
成し、生成物を蒸留水で良く洗浄し、乾燥粉砕して、又
粉体の硬度、色や使用方法などを考慮し、必要に応じて
1350℃以下で焼成後、粉砕して目的物をえることが
できる。
Antibacterial hydroxyapatite can be easily produced by coexisting an antibacterial metal salt during hydroxyapatite synthesis, or by reacting hydroxyapatite with a metal salt. That is, N
Hydroxyapatite is synthesized by a conventional method by dropping an aqueous calcium chloride solution while stirring an aqueous solution containing a2HPO4 and antibacterial metal salts, such as metal salts such as silver, copper, and zinc.The product is thoroughly washed with distilled water and dried. The desired product can be obtained by pulverizing the powder, or, taking into account the hardness, color, method of use, etc. of the powder, and firing it at 1350° C. or lower, if necessary, and then pulverizing it.

【0020】なお、他の抗菌性リン酸カルシウムについ
ても上記と同様の方法で製造できるが、この時、必要に
応じて行なう焼成は1500℃以下である。これらの操
作において、担持された金属イオン以外に、酸性根や金
属塩、及び金属イオンがCaイオンと置換した際生成す
るカルシウム塩などが抗菌性ハイドロキシアパタイトに
残留する可能性があるため、えられた抗菌性ハイドロキ
シアパタイトは充分水洗し、これら共雑物を完全に除去
する必要がある。抗菌性ハイドロキシアパタイトに担持
させる抗菌性イオンの量は、使用する抗菌性金属塩の種
類、処理溶液の温度、温度などにより任意に選択するこ
とができるが、金属塩の量により反応生成物の抗菌性ハ
イドロキシアパタイトの構造がアパタイト構造よりずれ
る場合があるため、金属塩の量はハイドロキシアパタイ
トに対して30%以下、好ましくは5〜0.0001%
程度がよい。
[0020] Other antibacterial calcium phosphates can also be produced by the same method as above, but at this time, baking is carried out at 1500°C or less if necessary. In these operations, in addition to supported metal ions, acidic roots, metal salts, and calcium salts generated when metal ions replace Ca ions may remain in the antibacterial hydroxyapatite. The antibacterial hydroxyapatite must be thoroughly washed with water to completely remove these contaminants. The amount of antibacterial ions supported on antibacterial hydroxyapatite can be arbitrarily selected depending on the type of antibacterial metal salt used, the temperature of the treatment solution, etc. Since the structure of hydroxyapatite may deviate from the apatite structure, the amount of metal salt is 30% or less, preferably 5 to 0.0001% of the hydroxyapatite.
Good condition.

【0021】このようにしてえられた抗菌性ハイドロキ
シアパタイトは長時間抗菌性を保持し、水に対する金属
の溶出量も数ppb以下で、安全に使用される。
The antibacterial hydroxyapatite thus obtained retains antibacterial properties for a long time, and the amount of metal leached into water is several ppb or less, so it can be used safely.

【0022】抗菌性試験 上記方法による抗菌性ハイドロキシアパタイトの作成物
にバインダーを加えて圧縮成型し、1000℃で脱脂し
て、抗菌性ハイドロキシアパタイト100%である直径
3cmのペレットを作成した。
Antibacterial Test A binder was added to the antibacterial hydroxyapatite prepared by the above method, compression molded, and degreased at 1000° C. to produce pellets with a diameter of 3 cm containing 100% antibacterial hydroxyapatite.

【0023】そのペレット上で抗菌力試験を行った結果
、以下のような抗菌性を示した。
[0023] As a result of conducting an antibacterial activity test on the pellets, the following antibacterial properties were shown.

【0024】   なお、1200℃で焼成した抗菌性ハイドロキシア
パタイト5重量%、ポリプロピレンを95重量%で混同
して作成したペレットにおいても上記抗菌性試験と同様
の結果が得られた。
[0024]The same results as in the above antibacterial test were also obtained for pellets prepared by mixing 5% by weight of antibacterial hydroxyapatite and 95% by weight of polypropylene, which were fired at 1200°C.

【0025】なお、請求項3,4の様に抗菌性リン酸カ
ルシウムや抗菌性ハイドロキシアパタイトを樹脂に含有
させる目的は、真珠母核の硬さや重さを調整するためで
ある。
The purpose of containing antibacterial calcium phosphate or antibacterial hydroxyapatite in the resin as in claims 3 and 4 is to adjust the hardness and weight of the mother of pearl.

【0026】また、抗菌性リン酸カルシウムや抗菌性ハ
イドロキシアパタイトの樹脂に対する添加量は真珠母に
対する親和性、及び抗菌性を考慮して5重量%以上、好
ましくは10重量%程度以上が良い。
Further, the amount of antibacterial calcium phosphate or antibacterial hydroxyapatite added to the resin is preferably about 5% by weight or more, preferably about 10% by weight or more, taking into consideration the affinity for nacre and antibacterial properties.

【0027】この時、色や比重の調節を行なうためにチ
タン、ジルコニア、その他のセラミックスや顔料などを
少量添加することも可能である。
At this time, it is also possible to add a small amount of titanium, zirconia, other ceramics, pigments, etc. in order to adjust the color and specific gravity.

【0028】又、この複合材料を球状に成型する方法は
どのような方法でも良いが、実施例においては、射出成
型で行なっている。この複合材料を用いた真珠母核の例
としては、1200℃で焼成した抗菌性ハイドロキシア
パタイトを50重量%、ポリメチルメタクリレートを5
0重量%で混合して比重が約1.7の球を、1200℃
で焼成した抗菌性ハイドロキシアパタイトを70重量%
、ポロプロポレンを30重量%で混合した比重が約1.
9の球を作成した。
Although any method may be used to mold this composite material into a spherical shape, injection molding is used in the embodiment. An example of a mother-of-pearl core using this composite material is 50% by weight of antibacterial hydroxyapatite fired at 1200°C and 5% by weight of polymethyl methacrylate.
Spheres with a specific gravity of approximately 1.7 when mixed at 0% by weight are heated at 1200°C.
70% by weight of antibacterial hydroxyapatite calcined with
, the specific gravity of a mixture of 30% by weight of polypropylene is approximately 1.
9 balls were created.

【0029】[0029]

【発明の効果】以上の説明から明らかなように、本発明
に係る真珠の形成方法によれば、真珠母核に雑菌が繁殖
するのを防止して真珠貝の生存率を高める効果がある。 また、外観が良好で、その粒径が制御し易い真珠を確実
に形成出来る効果がある。
[Effects of the Invention] As is clear from the above description, the method for forming pearls according to the present invention has the effect of preventing the proliferation of bacteria on the mother-of-pearl core and increasing the survival rate of the mother-of-pearl. In addition, it has the effect of reliably forming pearls that have a good appearance and whose particle size can be easily controlled.

Claims (4)

【特許請求の範囲】[Claims] 【請求項1】  抗菌性リン酸カルシウムを球状に形成
した真珠母核を、真珠貝に核入れして、該真珠貝に真珠
を形成させることを特徴とする真珠の形成方法。
1. A method for forming pearls, which comprises placing a mother-of-pearl nucleus made of antibacterial calcium phosphate into a spherical shape into a mother-of-pearl oyster, and forming a pearl in the mother-of-pearl oyster.
【請求項2】  抗菌性ハイドロキシアパタイトを球状
に形成した真珠母核を、真珠貝に核入れして、該真珠貝
に真珠を形成させることを特徴とする真珠の形成方法。
2. A method for forming pearls, which comprises placing a mother-of-pearl core formed into a spherical shape of antibacterial hydroxyapatite into a mother-of-pearl oyster, and causing the mother-of-pearl oyster to form a pearl.
【請求項3】  樹脂に抗菌性リン酸カルシウムを含有
させた複合材料を球状に形成した真珠母核を、真珠貝に
核入れして、該真珠貝に真珠を形成させることを特徴と
する真珠の形成方法。
3. Formation of a pearl, characterized in that a mother-of-pearl core formed into a spherical shape from a composite material containing antibacterial calcium phosphate in a resin is placed in a mother-of-pearl oyster to form a pearl in the mother-of-pearl oyster. Method.
【請求項4】  樹脂に抗菌性ハイドロキシアパタイト
を含有させた複合材料を球状に形成した真珠母核を、真
珠貝に核入れして、該真珠貝に真珠を形成させることを
特徴とする真珠の形成方法。
4. A method of producing a pearl, characterized in that a mother-of-pearl core formed into a spherical shape from a composite material containing antibacterial hydroxyapatite in a resin is placed in a mother-of-pearl oyster to form a pearl in the mother-of-pearl oyster. Formation method.
JP3126438A 1991-05-30 1991-05-30 Method for forming pearl Pending JPH04356146A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP3126438A JPH04356146A (en) 1991-05-30 1991-05-30 Method for forming pearl

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP3126438A JPH04356146A (en) 1991-05-30 1991-05-30 Method for forming pearl

Publications (1)

Publication Number Publication Date
JPH04356146A true JPH04356146A (en) 1992-12-09

Family

ID=14935211

Family Applications (1)

Application Number Title Priority Date Filing Date
JP3126438A Pending JPH04356146A (en) 1991-05-30 1991-05-30 Method for forming pearl

Country Status (1)

Country Link
JP (1) JPH04356146A (en)

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US6217435B1 (en) 1998-01-20 2001-04-17 Ernest A. Voisin Process of elimination of bacteria in shellfish, of shucking shellfish and an apparatus therefor
US6426103B2 (en) 1998-01-20 2002-07-30 Innovatit Seafood Systems Llc Process of elimination of bacteria in shellfish and of shucking shellfish
US6537601B1 (en) 1998-01-20 2003-03-25 Innovatit Seafood Systems, Llc Process of elimination of bacteria in shellfish and of shucking shellfish
CN112471018A (en) * 2020-12-04 2021-03-12 广东海洋大学 Artificial pearl nucleus and preparation method and application thereof

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US6217435B1 (en) 1998-01-20 2001-04-17 Ernest A. Voisin Process of elimination of bacteria in shellfish, of shucking shellfish and an apparatus therefor
US6393977B1 (en) 1998-01-20 2002-05-28 Innovatit Seafood Systems, Llc Apparatus for pressure treating shellfish
US6426103B2 (en) 1998-01-20 2002-07-30 Innovatit Seafood Systems Llc Process of elimination of bacteria in shellfish and of shucking shellfish
US6537601B1 (en) 1998-01-20 2003-03-25 Innovatit Seafood Systems, Llc Process of elimination of bacteria in shellfish and of shucking shellfish
CN112471018A (en) * 2020-12-04 2021-03-12 广东海洋大学 Artificial pearl nucleus and preparation method and application thereof

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