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JPS6329000A - Chitin body due to papermaking method - Google Patents

Chitin body due to papermaking method

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Publication number
JPS6329000A
JPS6329000A JP17322086A JP17322086A JPS6329000A JP S6329000 A JPS6329000 A JP S6329000A JP 17322086 A JP17322086 A JP 17322086A JP 17322086 A JP17322086 A JP 17322086A JP S6329000 A JPS6329000 A JP S6329000A
Authority
JP
Japan
Prior art keywords
chitin
paper
water
paper product
present
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
JP17322086A
Other languages
Japanese (ja)
Inventor
由一 浅尾
丹沢 智弥
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.)
Lion Corp
Original Assignee
Lion Corp
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 Lion Corp filed Critical Lion Corp
Priority to JP17322086A priority Critical patent/JPS6329000A/en
Publication of JPS6329000A publication Critical patent/JPS6329000A/en
Pending legal-status Critical Current

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Abstract

(57)【要約】本公報は電子出願前の出願データであるた
め要約のデータは記録されません。
(57) [Abstract] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

【発明の詳細な説明】 〔技術分野〕 本発明は、分離膜、食品包装紙、医療材料等の用途に極
めて好適なβ−キチンから成るキチン系抄造体に関する
DETAILED DESCRIPTION OF THE INVENTION [Technical Field] The present invention relates to a chitin-based paper product made of β-chitin that is extremely suitable for uses such as separation membranes, food wrapping paper, and medical materials.

〔従来技術〕[Prior art]

キチンはポリ(β(1,4)−2−アセトアミド−2−
デオキシ−グルカン)で表わされる化学構造を有する多
糖類であり、カニ、エビなどの甲殻類や昆虫類を含む節
足動物の表皮構造中や穀類の細胞壁中に存在し、生物界
では、セルロースに次いで多量に生産されている。しか
しながら、キチンはセルロースが広く各分野において利
用されているのに比べ、はとんど利用されるに至ってい
なかった。
Chitin is poly(β(1,4)-2-acetamido-2-
It is a polysaccharide with a chemical structure expressed by deoxy-glucan), and is present in the epidermal structure of crustaceans such as crabs and shrimp, and arthropods including insects, and in the cell walls of grains. It is then produced in large quantities. However, while cellulose is widely used in various fields, chitin has hardly been used.

最近、このようなキチンを有効に利用する方法として、
カニ、エビ等の甲殻類の外殻から抽出されるキチンを水
中で離解させてキチン懸濁液を調製し、次いでこれを抄
紙することによってキチン抄造体を得る方法が提案され
ている(特開昭56−68200号)。
Recently, as a method to effectively utilize chitin,
A method has been proposed in which chitin extracted from the outer shells of crustaceans such as crabs and shrimp is disintegrated in water to prepare a chitin suspension, and then this is made into paper to obtain a chitin paper (Unexamined Japanese Patent Publication No. (Sho 56-68200).

しかしながら、この方法で用いら九るカニ、エビ等の甲
殻類から得られるキチンは、その結晶中の分子鎖が逆平
行の形で並んだα−キチンであって、結晶性に富み、き
つく引き締った構造をとっている為、硬く、水に膨潤し
にくい性質を有する(R,A、A、Muzzarell
i“Chj、tin”F’ergamon Press
 1977参照)。
However, the chitin obtained from crustaceans such as crabs and shrimps used in this method is α-chitin in which the molecular chains in its crystals are arranged in an antiparallel manner, and is highly crystalline and tightly packed. Because of its structure, it is hard and does not easily swell in water (R, A, A, Muzzarell
i“Chj, tin”F'ergamon Press
(see 1977).

従って、このようなα−キチンは水中で強力な機械的せ
ん断力を加えて離解しても均一なキチン懸濁液を得るこ
とが困難であり、このため得られるキチン抄造体は、地
合が悪く、強度が小さい上薄葉状のものとすることがで
きないという欠点があった。
Therefore, it is difficult to obtain a homogeneous chitin suspension even if α-chitin is disintegrated in water by applying strong mechanical shearing force, and for this reason, the resulting chitin paper product has a poor texture. It has disadvantages in that it has low strength and cannot be made into a thin sheet.

〔目   的〕〔the purpose〕

本発明は、前記従来のα−キチン系抄造体とは異なり、
地合いの均一性に優れると共に優れた強度特性を有し、
しかも良好な透明性を示すβ−キチン系抄造体を提供す
ることを目的とする。
The present invention differs from the conventional α-chitin-based paper products,
It has excellent texture uniformity and excellent strength characteristics,
Moreover, it is an object of the present invention to provide a β-chitin-based paper product that exhibits good transparency.

C構  成〕 本発明によれば、β−キチンから成ることを特徴とする
キチン系抄造体が提供される。
C Structure] According to the present invention, a chitin-based paper product characterized by being made of β-chitin is provided.

本発明のキチン系抄造体は、主成分として、キチンの結
晶中の分子鎖が平行に並んだ構造のβ−キチンを用いた
ことから、従来のα−キチンを主成分とした抄造体とは
異なり、地合いの均一性に優れると共に優れた強度特性
を有し、しかも良好な透明性を示すため、薄葉状抄造体
として極めて有用なものである。
The chitin-based paper product of the present invention uses β-chitin, which has a structure in which the molecular chains in chitin crystals are arranged in parallel, as the main component, and is therefore different from conventional paper products based on α-chitin. On the contrary, it has excellent uniformity of texture, excellent strength characteristics, and good transparency, so it is extremely useful as a thin sheet-like paper product.

本発明の抄造体がこのような作用効果を奏する理由は定
かでないが、主成分として用いるβ−キチンは、カニ、
エビ等の甲殻類から抽出して得られるα−キチンとは異
なり、その結晶中の分子鎖が平行な形で並んだ柔軟な構
造をもち、水に膨潤し易い性質を有しているので、水中
で容易に離解し、安定かつ均一なキチン懸濁液を形成し
、又このものは粒形状ではなく繊維状であるため、これ
らが互に絡み合って、相互に膠着した抄造体を形成する
ことにより、地合い及び強度特性に優れたものが得られ
るものと推定される。
Although it is not clear why the paper product of the present invention exhibits such effects, the β-chitin used as the main component is
Unlike α-chitin, which is extracted from crustaceans such as shrimp, it has a flexible structure in which the molecular chains in its crystals are arranged in parallel, and it has the property of easily swelling in water. It easily disintegrates in water to form a stable and uniform chitin suspension, and since this is not granular but fibrous, they intertwine and form a mutually adhesive paper product. It is presumed that a product with excellent texture and strength properties can be obtained by this method.

つぎに、本発明をさらに詳細に説明する。Next, the present invention will be explained in more detail.

本発明において使用するβ−キチンは、キチンの結晶中
の分子鎖が平行に並んだ構造を有するものである。
The β-chitin used in the present invention has a structure in which the molecular chains in the chitin crystal are arranged in parallel.

このβ−キチンの原料としては、イカ、有壁綱、貧毛綱
等が挙げられるが、入手し易さの点からみてイカの軟甲
が好適である。
Examples of the raw material for this β-chitin include squid, callus, oligochaete, etc., but the soft carapace of squid is preferable from the viewpoint of easy availability.

本発明で用いるβ−キチンは、次のようにして具体的に
精製することができる。
β-chitin used in the present invention can be specifically purified as follows.

まず、原料を水洗して異物を除き、ついで希塩酸又は希
酢酸水溶液で処理して無機塩類を除去する0次に希アル
カリ水溶液で加熱するとタンパク質及び脂質が除去され
る。これを適宜水洗して純粋な精製β−キチンを得る6
尚、イカの軟甲中には無機塩類がほとんど含有されてい
ないので、前記の酸処理工程を省略してもよいが、所望
ならば希塩酸又は希酢酸水溶液で処理しても良い、また
、酸処理工程とアルカリ処理工程の順は逆にしても良く
、これらの処理を繰返し行ってもよい。
First, the raw material is washed with water to remove foreign matter, then treated with dilute hydrochloric acid or dilute acetic acid solution to remove inorganic salts, and then heated with dilute alkaline aqueous solution to remove proteins and lipids. Wash this appropriately with water to obtain pure purified β-chitin6
Since squid soft carapace contains almost no inorganic salts, the acid treatment step described above may be omitted, but if desired, it may be treated with dilute hydrochloric acid or dilute acetic acid aqueous solution. The order of the treatment step and the alkali treatment step may be reversed, and these treatments may be repeated.

本発明において、このβ−キチンから抄造体を得るには
以下のようにすればよい。
In the present invention, a paper product can be obtained from this β-chitin in the following manner.

まず、精製β−キチンに適当量の水を加え、離解を行う
。この離解工程は、水100重量部に対し精製β−キチ
ンを1〜100重景部(乾燥固形分相当)加え、機械的
せん断芯力を加えて行うことが望ましい。この場合、機
械的せん断芯力を与える装置としては、ホモミキサー、
家庭用ミキサー、パルプ用の離解機又は叩解機が挙げら
れる。
First, an appropriate amount of water is added to purified β-chitin and disintegrated. This disintegration step is preferably carried out by adding 1 to 100 parts by weight of purified β-chitin (equivalent to dry solid content) to 100 parts by weight of water and applying mechanical shear core force. In this case, the device for applying mechanical shear core force is a homomixer,
Examples include household mixers, pulp disintegrators or beaters.

この離解工程において、β−キチンはフィブリル状態で
水中に分散、浮遊するが、このものは、そのままあるい
は適当に水で希釈されてβ−キチン紙料として用いるこ
とができる。
In this disaggregation step, β-chitin is dispersed and floated in water in the form of fibrils, and this can be used as β-chitin paper stock as it is or after being appropriately diluted with water.

尚、β−キチンとして乾燥β−キチンを使用する場合は
、予め解砕機又は粉砕機を用いて、乾燥β−キチンを解
砕又は粉砕し、繊維状のβ−キチンとし、このものを適
当量の水に添加し撹拌することによりβ−キチン分散液
とする。
In addition, when using dry β-chitin as β-chitin, crush or crush the dry β-chitin in advance using a crusher or pulverizer to obtain fibrous β-chitin, and add an appropriate amount of this material. A β-chitin dispersion is obtained by adding the mixture to water and stirring.

つぎに、これらの懸濁液又は分散液を通常の抄造法と同
様にしてスクリーン、クリーナなどで処理して、微細繊
維、微細粒子、異物などを除き、次工程の抄紙工程に供
する。
Next, these suspensions or dispersions are treated with a screen, cleaner, etc. to remove fine fibers, fine particles, foreign matter, etc. in the same manner as in ordinary papermaking methods, and then used in the next papermaking process.

この場合、必要により、濾水度を5J製し、サイズ剤や
填料などを加えてもよい。また、乾燥キチンの場合、解
砕又は粉砕後スクリーン等で微細粒子、微細繊維を除去
してもよい。
In this case, if necessary, the freeness may be adjusted to 5J, and a sizing agent, filler, etc. may be added. In the case of dried chitin, fine particles and fine fibers may be removed by crushing or crushing, followed by a screen or the like.

つぎに、このようにして得られたβ−キチン紙料を通常
のパルプから得られた紙料の抄紙と同様の方法で抄紙し
て湿潤キチン抄造体を形成し、これを圧さく、脱水し、
乾燥してβ−キチン抄造体を得る。
Next, the β-chitin paper stock obtained in this way is made into paper in the same manner as paper stock obtained from ordinary pulp to form a wet chitin paper product, which is then pressed and dehydrated. ,
A β-chitin paper product is obtained by drying.

尚、精製β−キチンの離解処理の際、パルプを所定量混
合してその混合物を離解及び叩解するか、又はあらかじ
め叩解したパルプスラリーに離解して得られるβ−キチ
ンの懸濁液、或は乾燥β−キチンを解砕又は粉砕して得
られる繊維状のβ−キチンを混合したものも上記のよう
に抄造することができる。
In addition, during the disintegration treatment of purified β-chitin, a suspension of β-chitin obtained by mixing a predetermined amount of pulp and disintegrating and beating the mixture, or by disintegrating a pre-beaten pulp slurry, or A mixture of fibrous β-chitin obtained by crushing or pulverizing dry β-chitin can also be made into paper as described above.

この場合、用いられるパルプは任意の割合で配合するこ
とができ、この方法によりβ−キチンとセルロース繊維
の混合物から成るβ−キチン系抄造体が得られる。
In this case, the pulps used can be blended in any proportion, and by this method a β-chitin based paper product consisting of a mixture of β-chitin and cellulose fibers can be obtained.

従って、本発明においては、パルプの配合割合を特に限
定する必要はないが、通常β−キチン100重量部当り
0〜1000重量部、好ましくは0〜100重量部の範
囲内とするのがよい。
Therefore, in the present invention, there is no need to particularly limit the blending ratio of pulp, but it is usually in the range of 0 to 1000 parts by weight, preferably 0 to 100 parts by weight, per 100 parts by weight of β-chitin.

又、上記方法の別法として、精製β−キチンの離解の際
、カニ、エビ等の甲殻類の外殻から得られるα−キチン
を所定量混合してその混合物を離解するか、又は精製α
−キチンの懸濁液に乾燥精製β−キチンを粉砕又は解砕
して得られる綿状のキチンを混合したものも上記のよう
に抄造することもできる。
In addition, as an alternative method to the above method, when disintegrating purified β-chitin, a predetermined amount of α-chitin obtained from the outer shell of crustaceans such as crabs and shrimps is mixed and the mixture is disintegrated;
- A suspension of chitin mixed with flocculent chitin obtained by pulverizing or crushing dry purified β-chitin can also be made into a paper as described above.

この場合、用いられるα−キチンは任意の割合で配合す
ることができ、この方法によればα−キチンとβ−キチ
ンの混合物から成るキチン抄造体が得られる。従って、
本発明においては、α−キチンの配合割合を特に限定す
る必要はないが、通常β−キチン100重量部当りα−
キチン0〜1.000重量部、好ましくは0〜100重
量部の範囲内とするのが望ましい。
In this case, the α-chitin used can be blended in any proportion, and according to this method, a chitin paper product consisting of a mixture of α-chitin and β-chitin can be obtained. Therefore,
In the present invention, it is not necessary to particularly limit the blending ratio of α-chitin, but usually α-chitin is
It is desirable that the amount of chitin be in the range of 0 to 1.000 parts by weight, preferably 0 to 100 parts by weight.

〔効  果〕〔effect〕

本発明のキチン系抄造体は、β−キチンを主成分とした
ことから、従来のα−キチンを主成分とする抄造体とは
異なり、地合いの均一性に優れると共に優れた強度特性
を有し、しかも良好な透明性を示すため、薄葉状抄造体
として、極めて実用的価値の高いものである。
Since the chitin-based paper product of the present invention has β-chitin as its main component, it has excellent uniformity of texture and excellent strength properties, unlike conventional paper products whose main component is α-chitin. Moreover, since it shows good transparency, it has extremely high practical value as a thin sheet-like paper product.

また、β−キチンとパルプから成る薄葉状抄造体はキチ
ンとセルロース繊維とが均質に混合し、紙と同様の性質
を示す。
Furthermore, a thin paper product made of β-chitin and pulp is a homogeneous mixture of chitin and cellulose fibers, and exhibits properties similar to paper.

従って、本発明の薄葉状キチン抄造体は、一般紙と同様
の用途に広く利用できると共に、分離膜、食品包装紙、
医療材料としても好適なものである。
Therefore, the thin chitin paper product of the present invention can be widely used in the same applications as general paper, and can also be used as a separation membrane, food packaging paper, etc.
It is also suitable as a medical material.

〔実施例〕〔Example〕

つぎに、実施例により本発明を更に詳細に説明する。 Next, the present invention will be explained in more detail with reference to Examples.

実施例1 50重量ぶの水分を含むヤリイカの軟甲(長さ約30c
lllI、幅約5cm)300gを1〜2cmの長さに
切断し、1規定の水酸化ナトリウム水溶液1.5Qを加
え、65〜70℃の温度で2時間ゆるやかに撹拌してタ
ンパク質及び脂質を除去した。次にアルカリ液を濾過し
、洗浄液が中性になるまで水洗を繰り返し、最後に遠心
脱水して水分40%を含む白色の精製β−キチン128
gを得た。この精製β−キチン中の窒素分はキチン乾燥
分に対し7.1%、900℃で2時間加熱後の残分はキ
チン乾燥分に対して0.1石以下であった。
Example 1 Squid carapace (approximately 30 cm long) containing 50 weight of water
Cut 300g of the mixture into 1-2cm lengths, add 1.5Q of 1N sodium hydroxide aqueous solution, and stir gently for 2 hours at a temperature of 65-70℃ to remove proteins and lipids. did. Next, the alkaline solution is filtered, washed repeatedly with water until the washing solution becomes neutral, and finally, centrifugal dehydration is performed to produce white purified β-chitin 128 containing 40% water.
I got g. The nitrogen content in this purified β-chitin was 7.1% based on the dry chitin content, and the residue after heating at 900° C. for 2 hours was 0.1 stone or less based on the dry chitin content.

上記精製β−キチン80gに水2Qを加え家庭用ミキサ
ーで10分間撹拌するとムラなく、繊維状に難解して膨
潤し、全体は均一なスラリー状となった。
When 2Q of water was added to 80 g of the purified β-chitin and stirred for 10 minutes using a household mixer, the mixture evenly swelled in a fibrous form, and the whole became a uniform slurry.

このうち、14gを分は取り、水に希釈し抄紙機を用い
80メツシユの直径15cII+の円形全綱ですき、濾
紙を重ね3kg/dの圧力で5分間プレスした後送風乾
燥すると厚さ20μ瓜の半透明で地合いに優れた薄葉状
抄造体が得られた。この薄葉状のβ−キチン抄造体の坪
量は14g/ffl、引張強度は20℃、相対湿度60
.%の条件下で2.5Kg/mrn”であった。
Take 14g of this, dilute it with water, use a paper machine to grind it with an 80-mesh circular wire with a diameter of 15cII+, layer it with filter paper, press it at a pressure of 3kg/d for 5 minutes, and dry it with air to make a 20μ thick melon. A thin sheet-like paper product was obtained which was translucent and had excellent texture. The basis weight of this thin leaf-like β-chitin paper product is 14 g/ffl, the tensile strength is 20°C, and the relative humidity is 60
.. % condition, it was 2.5 Kg/mrn''.

実施例2 実施例1で得られた難解後のβ−キチンスラリー液25
&を分は取り、以後、実施例1と同様の方法で抄紙する
と厚さ40μmの半透明で地合いに優れた薄葉状抄造体
が得られた。この薄葉状のβ−キチン抄造体の坪量は2
4g/ rr?、引張強度は20℃、相対湿度6部の条
件下で3.3Kg/mm2であった。
Example 2 β-chitin slurry liquid 25 after difficult treatment obtained in Example 1
& was removed, and paper was then made in the same manner as in Example 1 to obtain a 40 μm thick, translucent, thin sheet-like paper product with excellent texture. The basis weight of this thin leaf-like β-chitin paper structure is 2
4g/rr? The tensile strength was 3.3 Kg/mm2 under the conditions of 20° C. and 6 parts relative humidity.

実施例3 実施例1で得られた離解後のβ−キチンスラリー液48
gを分は取り、以後、実施例1と同様の方法で抄紙する
と、厚さ60μmの半透明で地合いに優れた薄葉状抄造
体が得ら九たにの薄葉状のβ−キチン抄造体の坪量は4
0g、/rn、引張強度は20℃、相対湿Jf!:、6
0%の条件下で4.2Kg/in”であった。
Example 3 β-chitin slurry liquid 48 after disintegration obtained in Example 1
After that, paper was made in the same manner as in Example 1 to obtain a thin leaf-like paper product with a thickness of 60 μm, translucent and excellent in texture. The basis weight is 4
0g, /rn, tensile strength is 20℃, relative humidity Jf! :, 6
It was 4.2 Kg/in" under 0% condition.

比較例1 紅ズワイガニの外殻を処理して得られた乾燥後のα−キ
チン32gに水2Qを加え、−夜浸漬してから家庭用ミ
キサーで30分間撹拌した。このキチン分散液42gを
分は取り、以後、実施例1と同様の方法で抄紙、乾燥し
た。得られたα−キチン抄造体は地合が悪く、厚さ80
mμ、坪量39g/rri’で引張強度は20℃、相対
湿度60%の条件下で1.5Kg/mm”であった。
Comparative Example 1 2Q of water was added to 32g of dried α-chitin obtained by treating the outer shell of a red snow crab, soaked overnight, and then stirred for 30 minutes using a household mixer. 42 g of this chitin dispersion was taken out, and then paper was made and dried in the same manner as in Example 1. The resulting α-chitin paper product had poor texture and a thickness of 80 mm.
mμ, basis weight 39 g/rri', and tensile strength 1.5 Kg/mm'' under conditions of 20° C. and 60% relative humidity.

比較例2 比較例1で得られたキチン分散液62gを分は取り、以
後、実施例1と同様の方法で抄紙、乾燥した。
Comparative Example 2 A portion of 62 g of the chitin dispersion obtained in Comparative Example 1 was taken, and thereafter paper was made and dried in the same manner as in Example 1.

得られたα−キチン抄造体は地合が悪く、厚さ120伽
μ、坪:155g/mで、引張強度は20℃、相対湿度
60%の条件下で1.8Kg/mm2であった。
The obtained α-chitin paper product had poor texture, had a thickness of 120 μm, a tsubo of 155 g/m, and a tensile strength of 1.8 Kg/mm 2 at 20° C. and 60% relative humidity.

実施例1〜3及び比較例1〜2で得られたキチン抄造体
の坪量と引張強度の関係を第1図で示す。
FIG. 1 shows the relationship between the basis weight and tensile strength of the chitin paper products obtained in Examples 1 to 3 and Comparative Examples 1 to 2.

第1図から、イカ軟甲から得られるβ−キチンの抄造体
はカニ殻から得られるα−キチンの抄造体とくらべて強
度特性が非常に優れていることが判る。尚、カニ殻から
得られるα−キチンに於ては坪量が39g/ m以下で
は強度が小さい為、キチン抄造体を作ることができなか
った。
From FIG. 1, it can be seen that the β-chitin paper obtained from squid carapace has extremely superior strength properties compared to the α-chitin paper obtained from crab shell. In addition, in the case of α-chitin obtained from crab shells, if the basis weight is 39 g/m or less, the strength is low, so it was not possible to make a chitin paper article.

実施例4 実施例1で得られた脱タンパク後のβ−キチンを乾燥し
、次に超遠心砕機(日本精機製)で0.75mmのスク
リーンを使用し粉砕した。得られた綿状キチン0.72
gに水100m Qを加え、ゆるやかにかき混ぜた後、
実施例1と同様の方法で抄紙乾燥すると厚さ110I1
1μ、坪量41g/mのキチン抄造体が得られた。
Example 4 The deproteinized β-chitin obtained in Example 1 was dried, and then ground in an ultracentrifuge (manufactured by Nippon Seiki) using a 0.75 mm screen. Obtained flocculent chitin 0.72
Add 100m of water to g, stir gently,
When paper is made and dried in the same manner as in Example 1, the thickness is 110I1.
A chitin paper product having a thickness of 1 μm and a basis weight of 41 g/m was obtained.

比較例3 実施例4と同じ条件で粉砕して得られたカニ殻由来の精
製α−キチン0.72gに水100IIQを加え、ゆる
やかにかき混ぜた後、実施例1と同様の方法で抄紙した
がキチン抄造体を得ることができなかった。
Comparative Example 3 100 IIQ of water was added to 0.72 g of purified α-chitin derived from crab shells obtained by crushing under the same conditions as in Example 4, and after gently stirring, paper was made in the same manner as in Example 1. A chitin paper structure could not be obtained.

【図面の簡単な説明】[Brief explanation of the drawing]

第1図は、本発明と比較例で得られたキチン抄造体の坪
量と引張強度の関係を表わすグラフである。
FIG. 1 is a graph showing the relationship between the basis weight and tensile strength of chitin paper products obtained in the present invention and comparative examples.

Claims (2)

【特許請求の範囲】[Claims] (1)β−キチンから成ることを特徴とするキチン系抄
造体。
(1) A chitin-based paper product characterized by being composed of β-chitin.
(2)β−キチンがイカの軟甲から得られるものである
特許請求の範囲第1項記載のキチン系抄造体。
(2) The chitin-based paper article according to claim 1, wherein the β-chitin is obtained from the soft carapace of squid.
JP17322086A 1986-07-22 1986-07-22 Chitin body due to papermaking method Pending JPS6329000A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP17322086A JPS6329000A (en) 1986-07-22 1986-07-22 Chitin body due to papermaking method

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP17322086A JPS6329000A (en) 1986-07-22 1986-07-22 Chitin body due to papermaking method

Publications (1)

Publication Number Publication Date
JPS6329000A true JPS6329000A (en) 1988-02-06

Family

ID=15956358

Family Applications (1)

Application Number Title Priority Date Filing Date
JP17322086A Pending JPS6329000A (en) 1986-07-22 1986-07-22 Chitin body due to papermaking method

Country Status (1)

Country Link
JP (1) JPS6329000A (en)

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH03220394A (en) * 1990-01-23 1991-09-27 Nippon Autom Kk Chitin fiber paper
US5240589A (en) * 1991-02-26 1993-08-31 Technology Applications Group, Inc. Two-step chemical/electrochemical process for coating magnesium alloys
US5264113A (en) * 1991-07-15 1993-11-23 Technology Applications Group, Inc. Two-step electrochemical process for coating magnesium alloys
CN112679769A (en) * 2020-12-22 2021-04-20 南京林业大学 High-transparency low-haze beta-chitin nanofiber flexible film and preparation method thereof

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH03220394A (en) * 1990-01-23 1991-09-27 Nippon Autom Kk Chitin fiber paper
US5240589A (en) * 1991-02-26 1993-08-31 Technology Applications Group, Inc. Two-step chemical/electrochemical process for coating magnesium alloys
US5264113A (en) * 1991-07-15 1993-11-23 Technology Applications Group, Inc. Two-step electrochemical process for coating magnesium alloys
CN112679769A (en) * 2020-12-22 2021-04-20 南京林业大学 High-transparency low-haze beta-chitin nanofiber flexible film and preparation method thereof

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