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JPS59176336A - Expanded polypropylene resin particles - Google Patents

Expanded polypropylene resin particles

Info

Publication number
JPS59176336A
JPS59176336A JP58050048A JP5004883A JPS59176336A JP S59176336 A JPS59176336 A JP S59176336A JP 58050048 A JP58050048 A JP 58050048A JP 5004883 A JP5004883 A JP 5004883A JP S59176336 A JPS59176336 A JP S59176336A
Authority
JP
Japan
Prior art keywords
temperature
peak
particles
polypropylene resin
resin particles
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.)
Granted
Application number
JP58050048A
Other languages
Japanese (ja)
Other versions
JPS6324617B2 (en
Inventor
Hideki Kuwabara
英樹 桑原
Shohei Yoshimura
吉村 正平
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.)
JSP Corp
Original Assignee
JSP 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 JSP Corp filed Critical JSP Corp
Priority to JP58050048A priority Critical patent/JPS59176336A/en
Priority to EP84103187A priority patent/EP0123144B1/en
Priority to DE8484103187T priority patent/DE3466700D1/en
Priority to KR1019840001539A priority patent/KR840008174A/en
Publication of JPS59176336A publication Critical patent/JPS59176336A/en
Priority to US07/082,560 priority patent/US4840973A/en
Publication of JPS6324617B2 publication Critical patent/JPS6324617B2/ja
Granted legal-status Critical Current

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Abstract

PURPOSE:Expanded particles having an excellent in-mold moldability and capable of forming a low-density (high expansion ratio) molding of low shrinkage and water absorption, having a crystal structure which gives a DSC curve having a peak characteristic of a PP resin and a high-temperature peak of the side of a temperature higher than that of the former. CONSTITUTION:Expanded PP resin particles having a crystal structure which, when analyzed by differential scanning colorimetry, gives a DSC curve (a DSC curve obtained when 1-3mg of the expanded PP resin particles are heated to 220 deg.C on a differential scanning colorimeter at a rate of temperature increase of 10 deg.C/min) having a peak characteristic of PP resin and a high-temperature peak on the side of a temperature higher than that of the former peak, preferably by at least 5 deg.C. The resin particles have an excellent in-mold moldability. By specifying the expansion temperature at a temperature which is lower than Tm and lies between Tm-25 deg.C and Tm-5 deg.C, wherein Tm is the temperature at which melting is finished, it is possible to obtain these expanded particles having a structure which gives a DSC curve having the characteristic peak and the high- temperature peak.

Description

【発明の詳細な説明】 本発明は型内成工性が良好なポリプロピレン系樹脂発泡
粒子に関する。
DETAILED DESCRIPTION OF THE INVENTION The present invention relates to foamed polypropylene resin particles having good in-mold formability.

予備発泡粒子を観内に充填し加熱し発泡させて得られる
。いわゆるビーズ発泡成型体(型内成型体)は緩衝性、
断熱性等に優れ、緩衝材、包装材。
It is obtained by filling a cavity with pre-expanded particles and heating and foaming them. The so-called bead foam molded product (in-mold molded product) has cushioning properties,
Excellent insulation properties, cushioning material, packaging material.

断熱材、建築資材等広範囲に利用され、その需要は近年
富みに増大している。
It is widely used in insulation materials, construction materials, etc., and the demand for it has increased tremendously in recent years.

この種成型体として従来、ポリスチレン発泡粒子からな
る成型体が知られていたが、ポリスチレン発泡型内成型
体は、脆いという致命的な欠点がある上、耐薬品性にも
劣るという欠点を有し、早くからその改善が留まれてい
た。かかる欠点を解決するものとして架橋ポリエチレン
発泡粒子からなる成型体が提案された。しかしながら架
橋ポリエチレン発泡粒子の場合は、型内成型によって低
密度(高発泡)の成型体を得ることが困難であり。
Conventionally, molded bodies made of polystyrene foam particles have been known as this type of molded body, but polystyrene foam molded bodies have the fatal disadvantage of being brittle and have the disadvantage of being inferior in chemical resistance. , the improvement was stopped early on. A molded body made of crosslinked polyethylene foam particles has been proposed as a solution to these drawbacks. However, in the case of crosslinked polyethylene foam particles, it is difficult to obtain a molded product with low density (high foaming) by in-mold molding.

強いて低密度の成型体を得ようとすると、収縮が著しく
、シかも吸水性が太きい、物性の劣った成型体しか得ら
れず、集用に供し得る成型体は到底得ることができなか
った。
When trying to obtain a molded product with a low density, the result was a molded product with significant shrinkage, high water absorption, and poor physical properties, making it impossible to obtain a molded product that could be used for commercial purposes. .

そこで本発明者らはポリプロピレン系樹脂の有する優れ
た物性に着目し、従来の型内成氾体の有する欠点を解決
すべくポリプロピレン系樹脂発泡粒子よりなる型内成型
体の研究を行なって来た。
Therefore, the present inventors have focused on the excellent physical properties of polypropylene resin, and have conducted research on in-mold molded bodies made of expanded polypropylene resin particles in order to solve the drawbacks of conventional in-mold flooded bodies. .

しかしながらポリプロピレン系樹脂発泡粒子整内成似体
は、低密度(高発泡)で吸水率が小さく。
However, polypropylene-based resin foam particle internal structure has a low density (high foaming) and a low water absorption rate.

しかも収縮率の小さい寸法安定性に優れた成型体が得ら
れる場合もある反面、収縮率の大きい成塊体しか得られ
ない場合もあり、必すしも安定して良好な成型体が得難
いという問題点を有していた。
Moreover, while it is possible to obtain a molded product with a low shrinkage rate and excellent dimensional stability, there are also cases where only a molded product with a high shrinkage rate can be obtained, making it difficult to obtain a stable and good molded product. It had a point.

本発明者らはこの原因を究明すべく更に鋭意研究した結
果、況内成型に用いるポリプロピレン系<8脂発泡粒子
(予備発泡粒子)の示差走査熱デを測定によって得られ
るDSC曲線にポリプロピレン系樹脂固有の固有ピーク
と該固有ピークより高温1jllの高温ピークとが現わ
れる結晶構造を有するポリプロピレン系樹脂発泡粒子金
用いた場合に良好な型内成型体が得られること金兄い出
し本発明を完成するに至った。
As a result of further intensive research by the present inventors to investigate the cause of this, we found that the DSC curve obtained by measuring the differential scanning thermal deformation of polypropylene <8 resin expanded particles (pre-expanded particles) used for in-situ molding To complete the present invention, it is possible to obtain a good in-mold molded body when using polypropylene resin foam particle gold having a crystal structure in which a unique characteristic peak and a high temperature peak 1 joll higher than the characteristic peak appear. reached.

即ち本発明は、ポリプロピレン系樹脂発泡粒子の示差走
査熱貴がり定によって得られるD S C11!l線(
ただしポリプロピレン系樹脂発泡粒子1〜3mgを示差
走査熱量計によって10℃/分の昇温速度で220°C
まで昇温したときに得られるDSC曲線)に該ポリプロ
ピレン系樹脂固有の固有ピークと、該固有ピークの温度
より高温側の高温ピークとが現われる結晶構造を有する
しとを特徴とするポリプロピレン系樹脂発泡粒子を要旨
とする。
That is, the present invention provides D SC11! obtained by differential scanning thermal determination of expanded polypropylene resin particles. l line (
However, 1 to 3 mg of expanded polypropylene resin particles were heated to 220°C at a heating rate of 10°C/min using a differential scanning calorimeter.
Polypropylene resin foam characterized by having a crystal structure in which a characteristic peak specific to the polypropylene resin and a high temperature peak on the higher temperature side than the temperature of the characteristic peak appear in the DSC curve obtained when the temperature is raised to The gist is particles.

本発明においてポリプロピレン系樹脂としては。In the present invention, the polypropylene resin includes:

プロピレン単独重合体、エチレン−プロピレンブロック
共重合体、エチレン−プロピレンランダム共重合体等が
用いられるが、特にエチレン−プロピレンランダム共重
合体が好ましい。
Propylene homopolymers, ethylene-propylene block copolymers, ethylene-propylene random copolymers, etc. are used, and ethylene-propylene random copolymers are particularly preferred.

本発明において、ポリプロピレン系樹脂発泡粒子の示差
走査熱量測定によって得られるDSC曲線とは、ポリプ
ロピレン系樹脂発泡粒子1〜3mgを示差走査熱量計に
よって10”(1:7分の昇温速度で220℃まで昇温
したときに得られるDSC曲線でちり1例えば、試料を
室温から220 ′Cまで10℃/分の昇温速度で昇温
した時に得られるDSC曲線を第1回目のDSC曲線と
し2次いで220℃から10℃/分の降温速度で40”
C付近まで降温し、0度10 ”C7分の昇温速度で2
20℃まで昇温した時に得られるDSC曲線を第2回目
のDSC曲繍とし、これらのDSC曲綜がら固有ピーク
、高温ピークを求めることができる。
In the present invention, the DSC curve obtained by differential scanning calorimetry of foamed polypropylene resin particles refers to a DSC curve obtained by measuring 1 to 3 mg of foamed polypropylene resin particles with a differential scanning calorimeter at 10" (220°C at a heating rate of 1:7 minutes). For example, the DSC curve obtained when the sample is heated from room temperature to 220'C at a heating rate of 10°C/min is the first DSC curve, and the second DSC curve is 40” at a cooling rate of 10°C/min from 220°C
The temperature is lowered to around C, and the temperature rises to 0 degrees Celsius 10"C at a heating rate of 7 minutes.
The DSC curve obtained when the temperature is raised to 20° C. is used as the second DSC curve, and the characteristic peak and high temperature peak can be determined from these DSC curves.

即ち本発明における固有ピークとは9発泡粒子を構成す
るポリプロピレン系樹脂固有の吸熱ピークであり、該ポ
リプロピレン系樹脂の、いわゆる融解時の吸熱によるも
のであると考えられる。該固有ピークは第1回目のDS
C曲flKも第2回目のDSC曲紗にも現われ、ピーク
の頂点の温度は第1回目と第2回目で多少異なる場合が
ちるが。
That is, the characteristic peak in the present invention is an endothermic peak unique to the polypropylene resin constituting the expanded particles, and is thought to be due to the so-called endotherm of the polypropylene resin during melting. The characteristic peak is the first DS
The C song flK also appears in the second DSC song, although the temperature at the top of the peak may be slightly different between the first and second times.

その差は5℃未満通常は2゛℃未酒である。The difference is less than 5°C, usually 2°C.

一方2本発明における高温ピークとは、第1回目のDS
C[1tlflで上記固有ピークより高温111]に現
われる吸熱ピークであり、DSC曲6にこの高温ピーク
が現われないポリプロピレン系樹脂発泡粒子れ型内成壓
性が悪く、良好な成現俸をイ(することはできない。上
記高温ピークは、上記固有ピーク々して現われる構造と
は異なる結晶構造の存在によるものではないがと考えら
れ、該高温ピークは第1回目のDSC曲縮には現われる
が、同一クミ件で昇温を行なった第2回目のDSC曲線
には現われない。従って高温ピークとして現われる構造
は本発明のポリプロピレン系樹脂発泡粒子自体が有して
いたものであり、示差走査熱量計によって昇温加熱した
ことにより生じたものではない。
On the other hand, the high temperature peak in the present invention refers to the first DS
C [higher temperature 111 than the above characteristic peak at 1 tlfl] This is an endothermic peak that appears at a high temperature of 111], and this high temperature peak does not appear in DSC track 6.Polypropylene resin foam particles have poor in-mold forming properties, and are not suitable for good forming ( It is thought that the above-mentioned high-temperature peak is not due to the existence of a crystal structure different from the structure that appears in the above-mentioned characteristic peaks, and although the high-temperature peak appears in the first DSC bending, It does not appear in the second DSC curve obtained by increasing the temperature under the same conditions.Therefore, the structure that appears as a high temperature peak is the one that the foamed polypropylene resin particles of the present invention itself had, and was determined by the differential scanning calorimeter. It was not caused by heating.

前記第2回目のDSC曲線に現われる固有ピークの温度
と第1回目のDSC曲線に現われる高温ピークの温度と
の差は大きいことが望ましく、第2回目のDSC曲線の
固有ピークの頂点の温度と高温ピークの頂点の温度との
差は5℃以上、好ましくは10℃以上である。
It is desirable that the difference between the temperature of the characteristic peak appearing in the second DSC curve and the temperature of the high temperature peak appearing in the first DSC curve is large, and the temperature at the peak of the characteristic peak of the second DSC curve and the high temperature are preferably large. The difference from the peak temperature is 5°C or more, preferably 10°C or more.

本発明のポリプロピレン系樹脂発泡粒子は、密閉容器内
にポリプロピレン系樹脂粒子と、該樹脂粒子100重量
部に対して水100〜400重景部、揮発重量泡剤(例
えばジクロロジフロロメタン)5〜30重量部2分散剤
(例えば微粒状酸化アルミニウム)051〜3重景部を
重量し、融解終了温度Tm以上に昇温することな(、T
m−25℃〜Tm−5℃(Tmはポリプロピレン系樹脂
の融fff終了温度で1本発明においては、試料6〜8
m、47を示差走査熱量計1にて10℃/分の昇温速度
で220℃まで昇温し1次いで10℃/分の降温速度で
40℃付近までM−湿した後、再度10℃/分の昇温速
度で220 ”C才で昇温し、第2回目の昇温によって
得られたDSCSC曲回熱ピークの裾が高温側でベース
ラインの付随に戻った時の湿度を融解終了湿度とした。
The foamed polypropylene resin particles of the present invention contain polypropylene resin particles in a closed container, 100 to 400 parts by weight of water per 100 parts by weight of the resin particles, and 5 to 5 parts by weight of a volatile foaming agent (for example, dichlorodifluoromethane). Weigh 30 parts by weight of 2 dispersants (for example, fine-grained aluminum oxide) and 051 to 3 parts by weight, and do not raise the temperature above the melting end temperature Tm (T
m-25°C to Tm-5°C (Tm is the melting fff end temperature of the polypropylene resin. In the present invention, Samples 6 to 8
M, 47 was heated to 220°C at a temperature increase rate of 10°C/min with a differential scanning calorimeter 1, and then moistened to around 40°C at a cooling rate of 10°C/min, and then moistened again at 10°C/min. The temperature was raised at a heating rate of 220"C at a temperature rise rate of 220"C, and the humidity at which the tail of the DSCSC curved heat peak obtained by the second temperature rise returned to the baseline at the high temperature side was determined as the melting end humidity. And so.

)まで昇温した後、容器の一端を開放して、上記樹脂粒
子と水とを容器内より低圧の雰囲気下に放出し、樹脂粒
子な発泡せしめて得ることができる。
), one end of the container is opened and the resin particles and water are released into a lower pressure atmosphere from inside the container to foam the resin particles.

上述の如く9発泡に際して発泡湿度を一力了終了温度T
m以上に昇温することなく上記した一定の温度範囲に規
定することにより、DSCIItl線に固有ピークと高
温ピークの現われる搭造を有する。
As mentioned above, during foaming, the temperature at which the foaming humidity ends is T.
By specifying the temperature within the above-mentioned constant range without increasing the temperature above m, a characteristic peak and a high-temperature peak appear in the DSCIItl line.

本発明の発泡粒子を得ることができる。発泡温度が上記
範囲から外れた場合、または上記範囲内であっても一旦
融解終了混度Tm以上に昇温した場合は、得られた発泡
粒子のDSC曲線区は固有ピークのみが現われ高温ピー
クは現われない。
Expanded particles of the present invention can be obtained. If the foaming temperature is out of the above range, or even if it is within the above range, once the temperature is raised above the melting end mixture Tm, only the characteristic peak will appear in the DSC curve section of the obtained expanded particles, and the high temperature peak will not appear. Doesn't appear.

以下、実施19す、比較例を挙げて本発明を更に詳細に
説明する。
Hereinafter, the present invention will be explained in more detail by giving Examples 19 and Comparative Examples.

実施例1〜3および比較例1〜3 密閉容器に水300g、 エチレン−プロピレンランダ
ム共重合体粒子(Tm=153℃)100g。
Examples 1 to 3 and Comparative Examples 1 to 3 300 g of water and 100 g of ethylene-propylene random copolymer particles (Tm = 153°C) in a closed container.

極微粒状酸化アルミニウム(分散剤)03g及び第1表
に示す揮発性発泡剤を配合し、攪拌下加熱した。第1表
に示す発泡温度にて30分間保持した後、容器内の圧力
を、窒素ガスにより3 oky/cflCG)に保持し
ながら容器の一端を開放し、樹脂粒子と水とを同時に大
気下へ放出し、樹脂粒子を発泡せしめて発泡粒子を得た
。得られた発泡粒子の見掛(嵩)発泡倍率を第1表に示
す。次に得られた各発泡粒子を示差走査熱量計(高滓製
作所製]) T−30型)によって10℃/分の昇温速
度で220°Ctで昇温して第1回目の測定を行なった
後10℃7′分の降温速度で40℃まで降温し、M度り
0℃/分の昇温速度で220℃まで昇温して第2回目の
測定を行なった。実施例1〜3の発泡粒子のDSC曲線
のうち実施例1の発泡粒子のDSC1111腺を第1図
に示す。また、比較例については比較例3の発泡粒子の
DSCIflli?Iを第2図に示す。第1図及び第2
図において実線は第1回目の6111定で得られたDS
C[1IIilを示し1点線は第2回目の測定で得られ
たDSC@線を示す。実施例1〜3の発泡粒子について
得られたDSC[lII緑から第2回目のDSC曲線に
現われる固有ピーク(alの頂点の温度と第1回目のD
SCIIil線に現われる高温ピーク(blの頂点の温
度との差(△T)を求め。
03 g of ultrafine aluminum oxide (dispersant) and the volatile blowing agent shown in Table 1 were blended and heated while stirring. After maintaining the foaming temperature shown in Table 1 for 30 minutes, one end of the container was opened while the pressure inside the container was maintained at 3oky/cflCG) with nitrogen gas, and the resin particles and water were released into the atmosphere at the same time. Then, the resin particles were foamed to obtain foamed particles. Table 1 shows the apparent (bulk) expansion ratio of the obtained expanded particles. Next, each of the foamed particles obtained was heated to 220°Ct at a heating rate of 10°C/min using a differential scanning calorimeter (manufactured by Takasu Seisakusho, Model T-30) for the first measurement. After that, the temperature was lowered to 40°C at a rate of 10°C and 7' minutes, and the temperature was increased to 220°C at a rate of 0°C/min for a second measurement. Among the DSC curves of the expanded particles of Examples 1 to 3, the DSC1111 curve of the expanded particles of Example 1 is shown in FIG. In addition, regarding the comparative example, DSCIflli? of the foamed particles of comparative example 3? I is shown in FIG. Figures 1 and 2
In the figure, the solid line is the DS obtained in the first 6111 constant.
C[1IIIil is shown, and the one dotted line shows the DSC@ line obtained in the second measurement. DSC obtained for the foamed particles of Examples 1 to 3
Find the difference (ΔT) between the temperature at the top of the high temperature peak (bl) appearing on the SCIIil line.

第1表に併せて示した。次に実施例1〜3及び比較例1
〜3の各発泡粒子’e 2 kg / cd(c)の空
気で24時間加圧処理しその後50朋X300m1X3
00間の内寸法を有する成型用金型に充填し。
It is also shown in Table 1. Next, Examples 1 to 3 and Comparative Example 1
~3 each foamed particle 'e 2 kg / cd (c) of air for 24 hours and then 50 mm x 300 m 1 x 3
Fill a mold with internal dimensions between 0.00 and 0.00.

3、2 kfi / crl (G)の蒸気で加熱し2
発泡成型を行なった。得られた各成壓体を80℃のオー
プン内でを第1表に示す。
3.Heat with steam of 2 kfi / crl (G) 2
Foam molding was performed. Table 1 shows the results of each of the obtained bodies in an open air at 80°C.

以上説明したように本発明のポリプロピレン系樹脂発泡
粒子は、DSC曲腺にポリプロピレン系樹脂固有の固有
ピークと、該固有ピークより高温側の高温ピークとが現
われる結晶構造を有すること罠より、高温ピークがDS
C曲線に現われないポリプロピレン系樹脂発泡粒子を用
いた型内成型体のように成型体が大きく収縮することが
なく。
As explained above, the expanded polypropylene resin particles of the present invention have a crystal structure in which a characteristic peak specific to the polypropylene resin and a high temperature peak on the higher temperature side of the characteristic peak appear in the DSC curve. is DS
The molded product does not shrink significantly unlike in-mold molded products using expanded polypropylene resin particles that do not appear on the C curve.

発泡粒子を型内成型する際の型内成型性に優れ。Excellent in-mold moldability when foamed particles are molded in a mold.

容品に低密度(高発泡)の成型体が得られるとともに、
得られた成型体は収縮率、吸水率が小さい。
In addition to obtaining a molded product with low density (high foaming),
The molded product obtained has a low shrinkage rate and low water absorption rate.

優れた物性を有する。また、ポリプロピレン系樹脂発泡
粒子からなる型内成型体はポリスチレン系樹脂発泡粒子
からなる型内成型体のように脆いという欠点はなく、耐
雨撃性、耐薬品性に優れた成型体を提供でき、しかも架
橋ポリエチレン発泡粒子からなる型内成型体に比べ低密
度(高発泡)とした場合でも収縮率、吸水率の小さい優
れた成型体を提供できる等の種々の効果を有する。
Has excellent physical properties. In addition, the in-mold molded body made of expanded polypropylene resin particles does not have the disadvantage of being brittle like the in-mold molded body made of expanded polystyrene resin particles, and can provide a molded body with excellent rain impact resistance and chemical resistance. In addition, it has various effects such as being able to provide an excellent molded product with low shrinkage and water absorption even when the density is lower (highly foamed) than in-mold molded products made of crosslinked polyethylene foam particles.

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

図面は示差走査熱量測定によって得られるDSC曲線を
示し、第1図は実施例10発泡粒子のDSCn線、第2
図は比較例30発泡粒子のDSC曲線である。 手続補正書1本) 昭和58年8 月22日 特許庁長官 若杉和夫 殿 1、事件の表示 昭和58年特許願第50048号 2゜ 発明の名称 ポリプロピレン系樹脂発泡粒子3、
 補正をする者 事件との関係   特許出願人 5、 補正命令の日付   自発補正 6、 補正により増加する発明の数 すL7、補正の対
象 明細書の発明の詳細な説明の欄。 (1)明細書第3頁第14行の「高31!+」ビーク」
を「高温ピーク」と補正する。 (2)同第1O頁第1表欄外脚注の「※2 : JIS
 −6767B法によって測定した。」をr JIS 
−に6767B法によって測定した。」と補正する。 以   上 手続補正書輸旧 昭和58年11月26 日 特許庁長官若杉和夫 殿 ■、事作の表示 昭和58年特許願第 50048  号2、 発明の名
称  ポリプロピレン系樹脂発泡粒子3、 補正をする
者 事件との関係 特許出願人 住 所 東京都千代田区内幸町2丁目1番1号5、 補
正命令の日付    自発補正8、補正の内容    
別紙の通シ〇 (1)明細書第6頁第5行の「していたものであり、」
を「していたものである。」と補正する。 (2)同第6頁第5行〜第6行の「示差走査熱量計によ
って昇温加熱したことにより生じたものではない。」を
削除する。 第6行の[o、 3gJを「0.3重量部」と、それぞ
れ補正する。 (4)同第10頁第1表の発泡条件の項中、揮発性発泡
剤の項において、実施例1の欄の「181/Jを「18
重量部」と、実施例2の欄のr20Ji’Jを「20重
量部」と、実施例3の欄の「xzlJを「11重量部」
、r13.9Jを「13重量部」と、比較例1の欄の「
8g」を「8重量部」と、比較例2の欄の「ao、!i
lJを「30重量部」と、比較例3の欄のr16,9J
を「16重量部」と、それぞれ補正する。 以   上
The drawings show DSC curves obtained by differential scanning calorimetry.
The figure is a DSC curve of Comparative Example 30 expanded particles. (1 procedural amendment) August 22, 1980 Commissioner of the Japan Patent Office Kazuo Wakasugi 1, Indication of the case Patent Application No. 50048 of 1988 2゜ Title of the invention Polypropylene resin foam particles 3,
Relationship with the case of the person making the amendment Patent applicant 5, Date of amendment order Voluntary amendment 6, Number of inventions increased by the amendment L7, Detailed explanation of the invention in the specification to be amended. (1) “High 31!+” beak on page 3, line 14 of the specification
is corrected as "high temperature peak". (2) "*2: JIS
Measured by -6767B method. "r JIS
- It was measured by the 6767B method. ” he corrected. The above amendment was filed on November 26, 1980, by Mr. Kazuo Wakasugi, Commissioner of the Japan Patent Office, ■, Description of the matter, Patent Application No. 50048 of 1982, 2, Title of the invention: Polypropylene resin foam particles 3, Person making the amendment Relationship to the case Patent applicant address 2-1-1-5 Uchisaiwai-cho, Chiyoda-ku, Tokyo Date of amendment order Voluntary amendment 8, Contents of amendment
Attached document 〇(1) “It was done” on page 6, line 5 of the specification.
Correct it with "That's what I used to do." (2) Delete the phrase "This was not caused by heating using a differential scanning calorimeter" in lines 5 and 6 of page 6. [o, 3gJ in the 6th line is corrected to "0.3 part by weight". (4) In the foaming conditions section of Table 1 on page 10, in the volatile blowing agent section, "181/J" in the column of Example 1 was replaced with "181/J".
"parts by weight", r20Ji'J in the column of Example 2 is "20 parts by weight", and "xzlJ" in the column of Example 3 is "11 parts by weight".
, r13.9J as "13 parts by weight" and "13 parts by weight" in the column of Comparative Example 1.
8g" to "8 parts by weight" and "ao,!i" in the column of Comparative Example 2.
lJ is "30 parts by weight" and r16,9J in the column of Comparative Example 3
are respectively corrected to "16 parts by weight". that's all

Claims (1)

【特許請求の範囲】 (11ポリプロピレン系樹脂発泡粒子の示差走査熱量計
1定によって得られるDSC[l1lil(ただしポリ
プロピレン系樹脂発泡粒子1〜3mgを示差走査熱量計
によって10℃/分の昇温速度で220℃まで昇温した
ときに得られるDSC曲ね)に該ポリプロピレン系樹脂
固有の固有ピークと、該固有ピークの温度より高温側の
高温ピークとが現われる結晶構造を有することを特徴と
するポリプロピレン系樹脂発泡粒子。 (2)  固有ビークの頂点の温度と高温ピークの頂点
の温度との差が5℃以上であることを特徴とする特許請
求の範1■1第1項に記載のポリプロピレン系樹脂発泡
粒子。
[Scope of Claims] (11 DSC [l1lil] obtained by a differential scanning calorimeter of foamed polypropylene resin particles (1 to 3 mg of the foamed polypropylene resin particles was measured by a differential scanning calorimeter at a heating rate of 10°C/min) A polypropylene characterized by having a crystal structure in which a characteristic peak specific to the polypropylene resin and a high temperature peak on the higher temperature side than the temperature of the characteristic peak appear in the DSC curve obtained when the temperature is raised to 220 ° C. (2) The polypropylene resin according to claim 1-1, wherein the difference between the temperature at the peak of the characteristic peak and the temperature at the peak of the high-temperature peak is 5° C. or more. Resin foam particles.
JP58050048A 1983-03-25 1983-03-25 Expanded polypropylene resin particles Granted JPS59176336A (en)

Priority Applications (5)

Application Number Priority Date Filing Date Title
JP58050048A JPS59176336A (en) 1983-03-25 1983-03-25 Expanded polypropylene resin particles
EP84103187A EP0123144B1 (en) 1983-03-25 1984-03-22 Polypropylene resin prefoamed particles
DE8484103187T DE3466700D1 (en) 1983-03-25 1984-03-22 Polypropylene resin prefoamed particles
KR1019840001539A KR840008174A (en) 1983-03-25 1984-03-24 Polypropylene Resin Prefoam Particle
US07/082,560 US4840973A (en) 1983-03-25 1987-08-07 Polypropylene resin prefoamed particles

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP58050048A JPS59176336A (en) 1983-03-25 1983-03-25 Expanded polypropylene resin particles

Publications (2)

Publication Number Publication Date
JPS59176336A true JPS59176336A (en) 1984-10-05
JPS6324617B2 JPS6324617B2 (en) 1988-05-21

Family

ID=12848104

Family Applications (1)

Application Number Title Priority Date Filing Date
JP58050048A Granted JPS59176336A (en) 1983-03-25 1983-03-25 Expanded polypropylene resin particles

Country Status (1)

Country Link
JP (1) JPS59176336A (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2002020525A (en) * 2000-07-07 2002-01-23 Asahi Kasei Corp Noncrosslinked expandable resin beads

Families Citing this family (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US7631579B2 (en) 2002-08-12 2009-12-15 Wagic, Inc. Customizable light bulb changer
US8516925B2 (en) 2009-09-17 2013-08-27 Wagic, Inc. Extendable multi-tool including interchangable light bulb changer and accessories

Citations (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS5790027A (en) * 1980-11-22 1982-06-04 Japan Styrene Paper Co Ltd Prefoamed polypropylene resin particle and its production

Patent Citations (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS5790027A (en) * 1980-11-22 1982-06-04 Japan Styrene Paper Co Ltd Prefoamed polypropylene resin particle and its production

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2002020525A (en) * 2000-07-07 2002-01-23 Asahi Kasei Corp Noncrosslinked expandable resin beads

Also Published As

Publication number Publication date
JPS6324617B2 (en) 1988-05-21

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