CN106751997A - A kind of peanut straw 3D printing material of high fusion index - Google Patents

Abstract

The invention discloses a kind of peanut straw 3D printing material of high fusion index, belong to 3D printing technical field of material, the peanut straw 3D printing material of the high fusion index is in units of weight portion, including following raw material：92 112 parts of peanut straw powder, 32 42 parts of PLA, 16 20 parts of four PA 800K, 11 15 parts of butyldiglycol acetic acid esters, 13 18 parts of epoxy acrylic resin, 6 10 parts of EP rubbers, 15 26 parts of specific synthetics, 8 16 parts of Starch synthesis agent.The material that the present invention is made has good toughness, impact strength, product high-quality, high-impact, high intensity, nontoxic, low-carbon environment-friendly, the low cost printed by 3D printing technique, with wooden color and luster, it is recycled and recycles, there is economic worth and wide market prospects very high.

Description

A kind of peanut straw 3D printing material of high fusion index

【Technical field】

The invention belongs to 3D printing technical field of material, and in particular to a kind of peanut straw 3D of high fusion index Printed material.

【Background technology】

One kind of 3D printing, i.e. rapid shaping technique, it is a kind of based on mathematical model file, with powdered gold Category or agricultural crop straw etc. can jointing material, come the technology of constructed object by way of successively printing.3D printing is typically to adopt Realized with digital technology file printing machine, be often used for modeling in fields such as Making mold, industrial designs, after gradually For the direct manufacture of some products, there is a parts printed using this technology, the technology jewelry, footwear, Industrial design, building, engineering and construction (AEC), automobile, Aero-Space, dentistry and medical industries, education, GIS-Geographic Information System, Civil engineering, gun and other field have all been applied.Although 3D printing technique has above-mentioned technical advantage, from it For its aspect, there is certain inferior position again, emphasis is embodied in material aspect, it may be said that be a very big short slab, material Kind is poor, expensive, directly governs overall development.From for technical standpoint, 3D printing is not that a profundity is difficult Technology, it is that printed material with the difference of common print.The Object of Israel is the company for grasping most printed materials, It can using 14 kinds of stocks and on this basis it is mashed up go out 107 kinds of materials, two kinds of mashed up use, colourings of material Also have been carried out.But, these material categorys also differ greatly compared with routine use material, moreover, these materials Cheap hundreds of yuan one kilogram, expensive wants 40,000 yuan or so.Chinese recent two decades come due to coal, electricity, natural gas it is general And, various industrial products it is abundant, rural area is reduced to the demand of agricultural crop straw, and agricultural crop straw is processed into order to one is tight The social concern of weight, many still direct burning crop straws in the ground of place peasants, triggers air pollution, fire, aircraft Cannot the consequence such as Normal Take-Off And Landing.Agricultural crop straw 3D printing material not only low production cost, also reduces the discharge capacity of carbon dioxide. According to the carbon dioxide row that annual 22400t can be reduced about investigation production 14000t agricultural crop straw 3D printing materials Put.Agricultural crop straw is reclaimed, the waste of crop genetic resource is solved, 3D printing material is translated into.By 3D printing will " in State manufactures " it is changed into " Chinese intelligence is made ", the friendly economic development policy of China's sustainable developing environment is adapted to, with across epoch weights Want meaning；To actively practicing innovation, coordination, green, open, shared idea of development, around industrial transformation upgrading, performance science and technology Innovate the support leading action to socio-economic development, play the decisive role and enterprise's skill of market construction technological innovation resource The effect of art Innovation Main Body has positive effect.

Existing 3D printing consumptive material is all mostly based on Petroleum refining high molecular polymer, for example：ABS、PP、PE、 Nylon, HIPS, PC belong to non-degradable material, and discarded 3D printing material or product will cause huge bearing to ecological environment Load, develops a kind of degradable 3D printing material that can make full use of waste agronomic crop, can both make full use of the by-product of crops Product stalk, can make the material after printing not cause white pollution to ecological environment because of discarding as degradation material again.

Patent CN102153801A discloses a kind of straw plastic and its production method, publication date：August 17 in 2011 Day, disclose appointing in stalk material and polyethylene, polypropylene, polystyrene or acrylonitrile-butadiene-styrene copolymer Meaning at least one carries out blending extrusion granulation, and its material can be as blowing, pulling-on piece, injection, due to the raw material stalk that it is used The larger requirement that can not be adapted to 3D printing extruder head of powder.

Patent CN103013150A discloses a kind of straw plastic and its production method for producing building product, open Date：On April 3rd, 2013, disclose and granulated after stalk and other plastics are carried out into blending and modifying, its product is used primarily in production The building product such as french drain, draining.But because its product can not use for a long time can not be adapted to the requirement of 3D printing, product is 180 Performance is lost after it and is gradually disintegrated.It is poor that its particle adds talcum powder, the toughness of diatomite product, intensity, it is impossible to Meet 3D printing consumptive material and prepare winding.

Patent CN104312119A discloses a kind of stalk 3D printing consumptive material and preparation method thereof, and formula includes following quality The raw material of ratio：PLA 40%-69%, stalk powder 30%-59%, compatilizer 0%-5% and other auxiliary agents 0.2%-3%, But there is the shortcoming of the poor-performings such as toughness, impact strength, anti-impact in the stalk 3D printing consumptive material.

【The content of the invention】

The present invention provides a kind of peanut straw 3D printing material of high fusion index, to solve existing stalk 3D printing consumptive material The problems such as there is the poor-performings such as toughness, impact strength, anti-impact.The material that the present invention is made has good toughness, impact strong Degree, product high-quality, high-impact, high intensity, nontoxic, low-carbon environment-friendly, the low cost printed by 3D printing technique is had Wooden color and luster, is recycled and recycles, and has wide market prospects

To solve above technical problem, the present invention uses following technical scheme：

A kind of peanut straw 3D printing material of high fusion index, in units of weight portion, including following raw material：Peanut stems 92-112 parts of stalk powder, PLA 32-42 parts, four PA 800K 16-20 parts, 11-15 parts of butyldiglycol acetic acid esters, epoxy third 13-18 parts of olefin(e) acid resin, EP rubbers 6-10 parts, specific synthetics 15-26 parts, 8-16 parts of Starch synthesis agent；

The specific synthetics is in units of weight portion, including following raw material：Conditioning agent 13-19 parts, propellant 10-16 Part, 9-14 parts of coupling agent a, surfactant 2-4 parts, compatilizer 13-15 parts, 8-14 parts of plasticizer a, antioxidant 8-12 parts, Flocculation agent 6-8 parts, terminator 4-6 parts；

The Starch synthesis agent is in units of weight portion, including following raw material：Starch 80-130 parts, dimethyl glutarate 10-16 parts, DMA 8-13 parts, 2-5 parts of epoxy chlorobutane, urea 1.5-3.5 parts, paste agent 1-2 parts, coupling 0.2-0.6 parts of agent b, initiator 0.1-0.2 parts, catalyst 0.1-0.2 parts, stabilizer 0.1-0.3 parts, defoamer 0.3-0.8 Part, 0.4-0.9 parts of plasticizer b, toughener 0.3-0.7 parts, tackifier 0.3-0.6 parts, water-proofing agent 0.2-0.4 parts, antiseptic 0.1-0.2 parts；

The coupling agent b is 2,5- dimethyl -2, double (benzoyl the peroxide)-hexanes of 5-；

The initiator is the isobutyric acid of azo two (acrylic acid ethylene glycol) ester；

The catalyst is platinum catalyst；

The stabilizer is organic tin stabilizer；

The defoamer is polyoxyethylene polyoxypropylene pentaerythrite ether；

The plasticizer b is citrate；

The toughener is poly- propylene diene rubber；

The tackifier are propyl trimethoxy silicane；

The water-proofing agent is boric acid；

The antiseptic is lithium carbonate；

The preparation method of the peanut straw 3D printing material of described high fusion index, comprises the following steps：

S1：The crushed stalk that will be selected, crosses 80-100 mesh sieve, and powder is obtained, and the powder dries 2- at 83-94 DEG C 3h, control moisture is obtained primary raw material peanut straw powder below 0.05%；

S2：To addition PLA, four PA 800Ks, butyl two in primary raw material peanut straw powder obtained in step S1 Glycol acetic acid esters, epoxy acrylic resin, EP rubbers, specific synthetics, are warming up to 180-212 DEG C, are 100- in rotating speed Stirred under 300r/min and melt 1.7-4.6h, be subsequently cooled to room temperature, modified stalk 3D printing secondary-material is obtained；

The preparation method of the specific synthetics, comprises the following steps：

S21：Propellant, coupling agent a, compatilizer, antioxidant are mixed and is warming up to 117-128 DEG C, be 100- in rotating speed 68-82min is reacted under 200r/min, material A is obtained；

S22：To adding conditioning agent, flocculation agent to be warming up to 143-156 DEG C after mixing in material A obtained in step S21, turning Speed is obtained material B to react 145-232min under 300-400r/min；

S23：108-125 DEG C is cooled to after mixing to addition plasticizer a, terminator in material B obtained in step S22, Rotating speed is obtained specific synthetics to react 62-135min under 200-300r/min；

S3：Crushed at being -90--110 DEG C in temperature by the stalk 3D printing secondary-material being modified obtained in step S2, plus Enter Starch synthesis agent to be well mixed, well mixed mixture be put into screw extruding forming machine, be 170-200 DEG C in temperature, Rotating speed be 102-116r/min under, through extrude strand, be obtained high fusion index peanut straw 3D printing material；

The preparation method of the Starch synthesis agent, comprises the following steps：

S31：Compound concentration is 18-25Be, and pH value is the starch slurry a of 3.1-3.8；

S32：It is dimethyl glutarate, the N of 4%-8%, N- diformazans to concentration is added in starch slurry a obtained in step S31 Yl acetamide, coupling agent b, catalyst, are then 42-58 DEG C in temperature, and speed of agitator connects to carry out crosslinking under 70-100r/min Branch reaction 2.5-3.5h, is obtained slurry b；

S33：To paste agent is added in slurry b obtained in step S32, regulation pH value is 9.1-9.8, is subsequently added into epoxy chlorine Butane, urea, initiator, plasticizer b, toughener, tackifier, water-proofing agent, antiseptic, are then 55-61 DEG C in temperature, stirring Rotating speed is obtained slurry c to carry out cross-linking reaction 1.2-1.8h under 80-120r/min；

S34：Stabilizer will be added in slurry c obtained in step S33, regulation pH value is 8.3-8.5, is warming up to 73-77 DEG C, Gelatinization 50-55min, gelatinization is down to 30-33 DEG C after terminating, add defoamer, and 8- is stirred in the case where rotating speed is 90-130r/min 12min, is obtained Starch synthesis agent.

Preferably, the conditioning agent is conditioning agent ACR.

Preferably, the propellant is aerogel generating agent.

Preferably, the coupling agent a is coupling agent kh570.

Preferably, surfactant is sodium sulfate of polyethenoxy ether of fatty alcohol.

Preferably, the compatilizer is modified polyacrylate.

Preferably, the plasticizer a is diisooctyl phthalate.

Preferably, the antioxidant is anti-oxidant DLTP.

Preferably, the flocculation agent is aluminium polychloride.

Preferably, the terminator is p-tert-Butylcatechol.

The invention has the advantages that：

(1) the peanut straw 3D printing material of the high fusion index that the present invention is made has good toughness, impact strength, Product high-quality, high-impact, the high intensity printed by 3D printing technique, with wide market prospects；

(2) the peanut straw 3D printing material of the high fusion index that the present invention is made has wooden color and luster, is recycled and reclaims Utilize, nontoxic, low-carbon environment-friendly, low cost, it is easy to industrialized production.

【Specific embodiment】

For ease of more fully understanding the present invention, it is illustrated by following examples, these embodiments belong to of the invention Protection domain, but do not limit the scope of the invention.

In embodiment, the peanut straw 3D printing material of the high fusion index is in units of weight portion including following Raw material：92-112 parts of peanut straw powder, PLA 32-42 parts, four PA 800K 16-20 parts, butyldiglycol acetic acid esters 11- 15 parts, epoxy acrylic resin 13-18 parts, EP rubbers 6-10 parts, specific synthetics 15-26 parts, 8-16 parts of Starch synthesis agent；

The specific synthetics is in units of weight portion, including following raw material：Conditioning agent 13-19 parts, propellant 10-16 Part, 9-14 parts of coupling agent a, surfactant 2-4 parts, compatilizer 13-15 parts, 8-14 parts of plasticizer a, antioxidant 8-12 parts, Flocculation agent 6-8 parts, terminator 4-6 parts；

The conditioning agent is conditioning agent ACR；

The propellant is aerogel generating agent；

The coupling agent a is coupling agent kh570；

Surfactant is sodium sulfate of polyethenoxy ether of fatty alcohol；

The compatilizer is modified polyacrylate；

The plasticizer a is diisooctyl phthalate；

The antioxidant is anti-oxidant DLTP；

The flocculation agent is aluminium polychloride；

The terminator is p-tert-Butylcatechol；

The Starch synthesis agent is in units of weight portion, including following raw material：Starch 80-130 parts, dimethyl glutarate 10-16 parts, DMA 8-13 parts, 2-5 parts of epoxy chlorobutane, urea 1.5-3.5 parts, paste agent 1-2 parts, coupling 0.2-0.6 parts of agent b, initiator 0.1-0.2 parts, catalyst 0.1-0.2 parts, stabilizer 0.1-0.3 parts, defoamer 0.3-0.8 Part, 0.4-0.9 parts of plasticizer b, toughener 0.3-0.7 parts, tackifier 0.3-0.6 parts, water-proofing agent 0.2-0.4 parts, antiseptic 0.1-0.2 parts；

The coupling agent b is 2,5- dimethyl -2, double (benzoyl the peroxide)-hexanes of 5-；

The initiator is the isobutyric acid of azo two (acrylic acid ethylene glycol) ester；

The catalyst is platinum catalyst；

The stabilizer is organic tin stabilizer；

The defoamer is polyoxyethylene polyoxypropylene pentaerythrite ether；

The plasticizer b is citrate；

The toughener is poly- propylene diene rubber；

The tackifier are propyl trimethoxy silicane；

The water-proofing agent is boric acid；

The antiseptic is lithium carbonate；

The preparation method of the peanut straw 3D printing material of described high fusion index, comprises the following steps：

S1：The crushed stalk that will be selected, crosses 80-100 mesh sieve, and powder is obtained, and the powder dries 2- at 83-94 DEG C 3h, control moisture is obtained primary raw material peanut straw powder below 0.05%；

S2：To addition PLA, four PA 800Ks, butyl two in primary raw material peanut straw powder obtained in step S1 Glycol acetic acid esters, epoxy acrylic resin, EP rubbers, specific synthetics, are warming up to 180-212 DEG C, are 100- in rotating speed Stirred under 300r/min and melt 1.7-4.6h, be subsequently cooled to room temperature, modified stalk 3D printing secondary-material is obtained；

The preparation method of the specific synthetics, comprises the following steps：

S21：Propellant, coupling agent a, compatilizer, antioxidant are mixed and is warming up to 117-128 DEG C, be 100- in rotating speed 68-82min is reacted under 200r/min, material A is obtained；

S22：To adding conditioning agent, flocculation agent to be warming up to 143-156 DEG C after mixing in material A obtained in step S21, turning Speed is obtained material B to react 145-232min under 300-400r/min；

S23：108-125 DEG C is cooled to after mixing to addition plasticizer a, terminator in material B obtained in step S22, Rotating speed is obtained specific synthetics to react 62-135min under 200-300r/min；

S3：Crushed at being -90--110 DEG C in temperature by the stalk 3D printing secondary-material being modified obtained in step S2, plus Enter Starch synthesis agent to be well mixed, well mixed mixture be put into screw extruding forming machine, be 170-200 DEG C in temperature, Rotating speed be 102-116r/min under, through extrude strand, be obtained high fusion index peanut straw 3D printing material；

The preparation method of the Starch synthesis agent, comprises the following steps：

S31：Compound concentration is 18-25Be ', and pH value is the starch slurry a of 3.1-3.8；

S32：It is dimethyl glutarate, the N of 4%-8%, N- diformazans to concentration is added in starch slurry a obtained in step S31 Yl acetamide, coupling agent b, catalyst, are then 42-58 DEG C in temperature, and speed of agitator connects to carry out crosslinking under 70-100r/min Branch reaction 2.5-3.5h, is obtained slurry b；

S33：To paste agent is added in slurry b obtained in step S32, regulation pH value is 9.1-9.8, is subsequently added into epoxy chlorine Butane, urea, initiator, plasticizer b, toughener, tackifier, water-proofing agent, antiseptic, are then 55-61 DEG C in temperature, stirring Rotating speed is obtained slurry c to carry out cross-linking reaction 1.2-1.8h under 80-120r/min；

S34：Stabilizer will be added in slurry c obtained in step S33, regulation pH value is 8.3-8.5, is warming up to 73-77 DEG C, Gelatinization 50-55min, gelatinization is down to 30-33 DEG C after terminating, add defoamer, and 8- is stirred in the case where rotating speed is 90-130r/min 12min, is obtained Starch synthesis agent.

Below by more specific embodiment, the present invention will be described.

Embodiment 1

A kind of peanut straw 3D printing material of high fusion index, in units of weight portion, including following raw material：Peanut stems 102 parts of stalk powder, 36 parts of PLA, 18 parts of four PA 800K, 14 parts of butyldiglycol acetic acid esters, epoxy acrylic resin 16 Part, 8 parts of EP rubbers, 20 parts of specific synthetics, 12 parts of Starch synthesis agent；

The specific synthetics is in units of weight portion, including following raw material：16 parts of conditioning agent, 14 parts of propellant, coupling 12 parts of agent a, 3 parts of surfactant, 14 parts of compatilizer, 12 parts of plasticizer a, 10 parts of antioxidant, 7 parts of flocculation agent, terminator 5 Part；

The conditioning agent is conditioning agent ACR；

The propellant is aerogel generating agent；

The coupling agent a is coupling agent kh570；

Surfactant is sodium sulfate of polyethenoxy ether of fatty alcohol；

The compatilizer is modified polyacrylate；

The plasticizer a is diisooctyl phthalate；

The antioxidant is anti-oxidant DLTP；

The flocculation agent is aluminium polychloride；

The terminator is p-tert-Butylcatechol；

The Starch synthesis agent is in units of weight portion, including following raw material：115 parts of starch, 13 parts of dimethyl glutarate, 12 parts of DMA, 4 parts of epoxy chlorobutane, 2.5 parts of urea, 1.5 parts of paste agent, 0.4 part of coupling agent b, initiator 0.1 part, 0.1 part of catalyst, 0.2 part of stabilizer, 0.5 part of defoamer, 0.6 part of plasticizer b, 0.5 part of toughener, tackifier 0.5 Part, 0.3 part of water-proofing agent, 0.1 part of antiseptic；

The coupling agent b is 2,5- dimethyl -2, double (benzoyl the peroxide)-hexanes of 5-；

The initiator is the isobutyric acid of azo two (acrylic acid ethylene glycol) ester；

The catalyst is platinum catalyst；

The stabilizer is organic tin stabilizer；

The defoamer is polyoxyethylene polyoxypropylene pentaerythrite ether；

The plasticizer b is citrate；

The toughener is poly- propylene diene rubber；

The tackifier are propyl trimethoxy silicane；

The water-proofing agent is boric acid；

The antiseptic is lithium carbonate；

The preparation method of the peanut straw 3D printing material of described high fusion index, comprises the following steps：

S1：The crushed stalk that will be selected, crosses 90 mesh sieve, and powder is obtained, and the powder dries 2.5h at 90 DEG C, controls Moisture is obtained primary raw material peanut straw powder below 0.05%；

S2：To addition PLA, four PA 800Ks, butyl two in primary raw material peanut straw powder obtained in step S1 Glycol acetic acid esters, epoxy acrylic resin, EP rubbers, specific synthetics, are warming up to 201 DEG C, in the case where rotating speed is 200r/min Stirring melts 3.4h, is subsequently cooled to room temperature, and modified stalk 3D printing secondary-material is obtained；

The preparation method of the specific synthetics, comprises the following steps：

S21：Propellant, coupling agent a, compatilizer, antioxidant are mixed and is warming up to 122 DEG C, be 150r/min in rotating speed Lower reaction 75min, is obtained material A；

S22：To adding conditioning agent, flocculation agent to be warming up to 150 DEG C after mixing in material A obtained in step S21, it is in rotating speed 190min is reacted under 350r/min, material B is obtained；

S23：To adding plasticizer a, terminator to be cooled to 115 DEG C after mixing in material B obtained in step S22, in rotating speed To react 100min under 250r/min, specific synthetics is obtained；

S3：Crushed at being -100 DEG C in temperature by the stalk 3D printing secondary-material being modified obtained in step S2, add and form sediment Powder synthetics is well mixed, and well mixed mixture is put into screw extruding forming machine, is 185 DEG C in temperature, and rotating speed is Under 110r/min, through extruding strand, the peanut straw 3D printing material of high fusion index is obtained；

The preparation method of the Starch synthesis agent, comprises the following steps：

S31：Compound concentration is 22Be ', and pH value is 3.5 starch slurry a；

S32：To dimethyl glutarate, N that addition concentration in starch slurry a obtained in step S31 is 6%, N- dimethyl second Acid amides, coupling agent b, catalyst, are then 50 DEG C in temperature, and speed of agitator is made to carry out cross-linked graft reaction 3h under 85r/min Obtain slurry b；

S33：To paste agent is added in slurry b obtained in step S32, regulation pH value is 9.6, is subsequently added into epoxy neoprene Alkane, urea, initiator, plasticizer b, toughener, tackifier, water-proofing agent, antiseptic, are then 58 DEG C, speed of agitator in temperature To carry out cross-linking reaction 1.5h under 100r/min, slurry c is obtained；

S34：Stabilizer will be added in slurry c obtained in step S33, regulation pH value is 8.4, be warming up to 75 DEG C, gelatinization 52min, gelatinization is down to 32 DEG C after terminating, add defoamer, and 10min is stirred in the case where rotating speed is 110r/min, and Starch synthesis are obtained Agent.

Embodiment 2

A kind of peanut straw 3D printing material of high fusion index, in units of weight portion, including following raw material：Peanut stems 92 parts of stalk powder, 32 parts of PLA, 16 parts of four PA 800K, 11 parts of butyldiglycol acetic acid esters, 13 parts of epoxy acrylic resin, 6 parts of EP rubbers, 15 parts of specific synthetics, 8 parts of Starch synthesis agent；

The specific synthetics is in units of weight portion, including following raw material：13 parts of conditioning agent, 10 parts of propellant, coupling 9 parts of agent a, 2 parts of surfactant, 13 parts of compatilizer, 8 parts of plasticizer a, 8 parts of antioxidant, 6 parts of flocculation agent, 4 parts of terminator；

The conditioning agent is conditioning agent ACR；

The propellant is aerogel generating agent；

The coupling agent a is coupling agent kh570；

Surfactant is sodium sulfate of polyethenoxy ether of fatty alcohol；

The compatilizer is modified polyacrylate；

The plasticizer a is diisooctyl phthalate；

The antioxidant is anti-oxidant DLTP；

The flocculation agent is aluminium polychloride；

The terminator is p-tert-Butylcatechol；

The Starch synthesis agent is in units of weight portion, including following raw material：80 parts of starch, 10 parts of dimethyl glutarate, 8 parts of DMA, 2 parts of epoxy chlorobutane, 1.5 parts of urea, 1 part of paste agent, 0.2 part of coupling agent b, initiator 0.1 Part, 0.1 part of catalyst, 0.1 part of stabilizer, 0.3 part of defoamer, 0.4 part of plasticizer b, 0.3 part of toughener, 0.3 part of tackifier, 0.2 part of water-proofing agent, 0.1 part of antiseptic；

The coupling agent b is 2,5- dimethyl -2, double (benzoyl the peroxide)-hexanes of 5-；

The initiator is the isobutyric acid of azo two (acrylic acid ethylene glycol) ester；

The catalyst is platinum catalyst；

The stabilizer is organic tin stabilizer；

The defoamer is polyoxyethylene polyoxypropylene pentaerythrite ether；

The plasticizer b is citrate；

The toughener is poly- propylene diene rubber；

The tackifier are propyl trimethoxy silicane；

The water-proofing agent is boric acid；

The antiseptic is lithium carbonate；

The preparation method of the peanut straw 3D printing material of described high fusion index, comprises the following steps：

S1：The crushed stalk that will be selected, crosses 80 mesh sieve, and powder is obtained, and the powder dries 3h at 83 DEG C, controls water Divide content below 0.05%, primary raw material peanut straw powder is obtained；

S2：To addition PLA, four PA 800Ks, butyl two in primary raw material peanut straw powder obtained in step S1 Glycol acetic acid esters, epoxy acrylic resin, EP rubbers, specific synthetics, are warming up to 180 DEG C, in the case where rotating speed is 100r/min Stirring melts 4.6h, is subsequently cooled to room temperature, and modified stalk 3D printing secondary-material is obtained；

The preparation method of the specific synthetics, comprises the following steps：

S21：Propellant, coupling agent a, compatilizer, antioxidant are mixed and is warming up to 117 DEG C, be 100r/min in rotating speed Lower reaction 82min, is obtained material A；

S22：To adding conditioning agent, flocculation agent to be warming up to 143 DEG C after mixing in material A obtained in step S21, it is in rotating speed 232min is reacted under 300r/min, material B is obtained；

S23：To adding plasticizer a, terminator to be cooled to 108 DEG C after mixing in material B obtained in step S22, in rotating speed To react 135min under 200r/min, specific synthetics is obtained；

S3：Crushed at being -90 DEG C in temperature by the stalk 3D printing secondary-material being modified obtained in step S2, add starch Synthetics is well mixed, and well mixed mixture is put into screw extruding forming machine, is 170 DEG C in temperature, and rotating speed is 102r/ Under min, through extruding strand, the peanut straw 3D printing material of high fusion index is obtained；

The preparation method of the Starch synthesis agent, comprises the following steps：

S31：Compound concentration is 18Be ', and pH value is 3.1 starch slurry a；

S32：To dimethyl glutarate, N that addition concentration in starch slurry a obtained in step S31 is 4%, N- dimethyl second Acid amides, coupling agent b, catalyst, are then 42 DEG C in temperature, and speed of agitator reacts 3.5h to carry out cross-linked graft under 70r/min, Slurry b is obtained；

S33：To paste agent is added in slurry b obtained in step S32, regulation pH value is 9.1, is subsequently added into epoxy neoprene Alkane, urea, initiator, plasticizer b, toughener, tackifier, water-proofing agent, antiseptic, are then 55 DEG C, speed of agitator in temperature To carry out cross-linking reaction 1.8h under 80r/min, slurry c is obtained；

S34：Stabilizer will be added in slurry c obtained in step S33, regulation pH value is 8.3, be warming up to 73 DEG C, gelatinization 55min, gelatinization is down to 30 DEG C after terminating, add defoamer, and 12min is stirred in the case where rotating speed is 90r/min, and Starch synthesis are obtained Agent.

Embodiment 3

A kind of peanut straw 3D printing material of high fusion index, in units of weight portion, including following raw material：Peanut stems 112 parts of stalk powder, 42 parts of PLA, 20 parts of four PA 800K, 15 parts of butyldiglycol acetic acid esters, epoxy acrylic resin 18 Part, 10 parts of EP rubbers, 26 parts of specific synthetics, 16 parts of Starch synthesis agent；

The specific synthetics is in units of weight portion, including following raw material：19 parts of conditioning agent, 16 parts of propellant, coupling 14 parts of agent a, 4 parts of surfactant, 15 parts of compatilizer, 14 parts of plasticizer a, 12 parts of antioxidant, 8 parts of flocculation agent, terminator 6 Part；

The conditioning agent is conditioning agent ACR；

The propellant is aerogel generating agent；

The coupling agent a is coupling agent kh570；

Surfactant is sodium sulfate of polyethenoxy ether of fatty alcohol；

The compatilizer is modified polyacrylate；

The plasticizer a is diisooctyl phthalate；

The antioxidant is anti-oxidant DLTP；

The flocculation agent is aluminium polychloride；

The terminator is p-tert-Butylcatechol；

The Starch synthesis agent is in units of weight portion, including following raw material：130 parts of starch, 16 parts of dimethyl glutarate, 13 parts of DMA, 5 parts of epoxy chlorobutane, 3.5 parts of urea, 2 parts of paste agent, 0.6 part of coupling agent b, initiator 0.2 part, 0.2 part of catalyst, 0.3 part of stabilizer, 0.8 part of defoamer, 0.9 part of plasticizer b, 0.7 part of toughener, tackifier 0.6 Part, 0.4 part of water-proofing agent, 0.2 part of antiseptic；

The coupling agent b is 2,5- dimethyl -2, double (benzoyl the peroxide)-hexanes of 5-；

The initiator is the isobutyric acid of azo two (acrylic acid ethylene glycol) ester；

The catalyst is platinum catalyst；

The stabilizer is organic tin stabilizer；

The defoamer is polyoxyethylene polyoxypropylene pentaerythrite ether；

The plasticizer b is citrate；

The toughener is poly- propylene diene rubber；

The tackifier are propyl trimethoxy silicane；

The water-proofing agent is boric acid；

The antiseptic is lithium carbonate；

The preparation method of the peanut straw 3D printing material of described high fusion index, comprises the following steps：

S1：The crushed stalk that will be selected, crosses 100 mesh sieve, and powder is obtained, and the powder dries 2h at 94 DEG C, controls Moisture is obtained primary raw material peanut straw powder below 0.05%；

S2：To addition PLA, four PA 800Ks, butyl two in primary raw material peanut straw powder obtained in step S1 Glycol acetic acid esters, epoxy acrylic resin, EP rubbers, specific synthetics, are warming up to 212 DEG C, in the case where rotating speed is 300r/min Stirring melts 1.7h, is subsequently cooled to room temperature, and modified stalk 3D printing secondary-material is obtained；

The preparation method of the specific synthetics, comprises the following steps：

S21：Propellant, coupling agent a, compatilizer, antioxidant are mixed and is warming up to 128 DEG C, be 200r/min in rotating speed Lower reaction 68min, is obtained material A；

S22：To adding conditioning agent, flocculation agent to be warming up to 156 DEG C after mixing in material A obtained in step S21, it is in rotating speed 145min is reacted under 400r/min, material B is obtained；

S23：To adding plasticizer a, terminator to be cooled to 125 DEG C after mixing in material B obtained in step S22, in rotating speed To react 62min under 300r/min, specific synthetics is obtained；

S3：Crushed at being -110 DEG C in temperature by the stalk 3D printing secondary-material being modified obtained in step S2, add and form sediment Powder synthetics is well mixed, and well mixed mixture is put into screw extruding forming machine, is 200 DEG C in temperature, and rotating speed is Under 116r/min, through extruding strand, the peanut straw 3D printing material of high fusion index is obtained；

The preparation method of the Starch synthesis agent, comprises the following steps：

S31：Compound concentration is 25Be ', and pH value is 3.8 starch slurry a；

S32：To dimethyl glutarate, N that addition concentration in starch slurry a obtained in step S31 is 8%, N- dimethyl second Acid amides, coupling agent b, catalyst, then temperature be 58 DEG C, speed of agitator be 100r/min under carry out cross-linked graft reaction 2.5h, is obtained slurry b；

S33：To paste agent is added in slurry b obtained in step S32, regulation pH value is 9.8, is subsequently added into epoxy neoprene Alkane, urea, initiator, plasticizer b, toughener, tackifier, water-proofing agent, antiseptic, are then 61 DEG C, speed of agitator in temperature To carry out cross-linking reaction 1.2h under 120r/min, slurry c is obtained；

S34：Stabilizer will be added in slurry c obtained in step S33, regulation pH value is 8.5, be warming up to 77 DEG C, gelatinization 50min, gelatinization is down to 33 DEG C after terminating, add defoamer, and 8min is stirred in the case where rotating speed is 130r/min, and Starch synthesis are obtained Agent.

Peanut straw 3D printing material property to the high fusion index in embodiment 1-3 is detected, as a result such as following table It is shown.

Above content is confined to these explanations it cannot be assumed that the present invention is embodied, for the technical field of the invention Those of ordinary skill for, under the premise of present inventive concept is not departed from, some simple deduction or replace can also be made, all should When being considered as belonging to the scope of patent protection that claims by being submitted to of the present invention determine.

Claims (10)

1. the peanut straw 3D printing material of a kind of high fusion index, it is characterised in that in units of weight portion, including following original Material：92-112 parts of peanut straw powder, PLA 32-42 parts, four PA 800K 16-20 parts, butyldiglycol acetic acid esters 11-15 Part, epoxy acrylic resin 13-18 parts, EP rubbers 6-10 parts, specific synthetics 15-26 parts, 8-16 parts of Starch synthesis agent；

The specific synthetics is in units of weight portion, including following raw material：Conditioning agent 13-19 parts, propellant 10-16 parts, idol Connection 9-14 parts of agent a, surfactant 2-4 parts, compatilizer 13-15 parts, 8-14 parts of plasticizer a, antioxidant 8-12 parts, flocculation agent 6-8 parts, terminator 4-6 parts；

The Starch synthesis agent is in units of weight portion, including following raw material：Starch 80-130 parts, dimethyl glutarate 10-16 Part, DMA 8-13 parts, 2-5 parts of epoxy chlorobutane, urea 1.5-3.5 parts, paste agent 1-2 parts, coupling agent b 0.2-0.6 parts, initiator 0.1-0.2 parts, catalyst 0.1-0.2 parts, stabilizer 0.1-0.3 parts, defoamer 0.3-0.8 parts, increasing 0.4-0.9 parts of agent b of modeling, toughener 0.3-0.7 parts, tackifier 0.3-0.6 parts, water-proofing agent 0.2-0.4 parts, antiseptic 0.1-0.2 Part；

The coupling agent b is 2,5- dimethyl -2, double (benzoyl the peroxide)-hexanes of 5-；

The initiator is the isobutyric acid of azo two (acrylic acid ethylene glycol) ester；

The catalyst is platinum catalyst；

The stabilizer is organic tin stabilizer；

The defoamer is polyoxyethylene polyoxypropylene pentaerythrite ether；

The plasticizer b is citrate；

The toughener is poly- propylene diene rubber；

The tackifier are propyl trimethoxy silicane；

The water-proofing agent is boric acid；

The antiseptic is lithium carbonate；

The preparation method of the peanut straw 3D printing material of described high fusion index, comprises the following steps：

S1：The crushed stalk that will be selected, crosses 80-100 mesh sieve, and powder is obtained, and the powder dries 2-3h at 83-94 DEG C, Control moisture is obtained primary raw material peanut straw powder below 0.05%；

S2：To addition PLA, four PA 800Ks, butyldiglycol in primary raw material peanut straw powder obtained in step S1 Acetic acid esters, epoxy acrylic resin, EP rubbers, specific synthetics, are warming up to 180-212 DEG C, are 100-300r/ in rotating speed Stirred under min and melt 1.7-4.6h, be subsequently cooled to room temperature, modified stalk 3D printing secondary-material is obtained；

The preparation method of the specific synthetics, comprises the following steps：

S21：Propellant, coupling agent a, compatilizer, antioxidant are mixed and is warming up to 117-128 DEG C, be 100-200r/ in rotating speed 68-82min is reacted under min, material A is obtained；

S22：To adding conditioning agent, flocculation agent to be warming up to 143-156 DEG C after mixing in material A obtained in step S21, it is in rotating speed 145-232min is reacted under 300-400r/min, material B is obtained；

S23：To adding plasticizer a, terminator to be cooled to 108-125 DEG C after mixing in material B obtained in step S22, in rotating speed To react 62-135min under 200-300r/min, specific synthetics is obtained；

S3：Crushed at being -90--110 DEG C in temperature by the stalk 3D printing secondary-material being modified obtained in step S2, add and form sediment Powder synthetics is well mixed, and well mixed mixture is put into screw extruding forming machine, is 170-200 DEG C, rotating speed in temperature Under for 102-116r/min, through extruding strand, the peanut straw 3D printing material of high fusion index is obtained；

The preparation method of the Starch synthesis agent, comprises the following steps：

S31：Compound concentration is 18-25Be ', and pH value is the starch slurry a of 3.1-3.8；

S32：It is dimethyl glutarate, the N of 4%-8%, N- dimethyl second to concentration is added in starch slurry a obtained in step S31 Acid amides, coupling agent b, catalyst, are then 42-58 DEG C in temperature, and speed of agitator is anti-to carry out cross-linked graft under 70-100r/min 2.5-3.5h is answered, slurry b is obtained；

S33：To paste agent is added in slurry b obtained in step S32, regulation pH value is 9.1-9.8, is subsequently added into epoxy neoprene Alkane, urea, initiator, plasticizer b, toughener, tackifier, water-proofing agent, antiseptic, are then 55-61 DEG C in temperature, and stirring turns Speed is obtained slurry c to carry out cross-linking reaction 1.2-1.8h under 80-120r/min；

S34：Stabilizer will be added in slurry c obtained in step S33, regulation pH value is 8.3-8.5, be warming up to 73-77 DEG C, gelatinization 50-55min, gelatinization is down to 30-33 DEG C after terminating, add defoamer, and 8-12min is stirred in the case where rotating speed is 90-130r/min, makes Obtain Starch synthesis agent.

2. the peanut straw 3D printing material of high fusion index according to claim 1, it is characterised in that the regulation Agent is conditioning agent ACR.

3. the peanut straw 3D printing material of high fusion index according to claim 1, it is characterised in that the propellant is Aerogel generating agent.

4. the peanut straw 3D printing material of high fusion index according to claim 1, it is characterised in that the coupling agent a It is coupling agent kh570.

5. the peanut straw 3D printing material of high fusion index according to claim 1, it is characterised in that surfactant is Sodium sulfate of polyethenoxy ether of fatty alcohol.

6. the peanut straw 3D printing material of high fusion index according to claim 1, it is characterised in that the compatilizer is Modified polyacrylate.

7. the peanut straw 3D printing material of high fusion index according to claim 1, it is characterised in that the plasticizer a It is diisooctyl phthalate.

8. the peanut straw 3D printing material of high fusion index according to claim 1, it is characterised in that the antioxidant is Anti-oxidant DLTP.

9. the peanut straw 3D printing material of high fusion index according to claim 1, it is characterised in that the flocculation agent is Aluminium polychloride.

10. the peanut straw 3D printing material of high fusion index according to claim 1, it is characterised in that the terminator It is p-tert-Butylcatechol.