CN106827139A

CN106827139A - The hydrophobic bamboo wood and its production technology of a kind of area load graphene oxide and silica

Info

Publication number: CN106827139A
Application number: CN201710032924.3A
Authority: CN
Inventors: 王进; 庄晓伟; 潘炘; 蒋应梯; 刘亚群
Original assignee: Zhejiang Academy of Forestry
Current assignee: Zhejiang Academy of Forestry
Priority date: 2017-01-18
Filing date: 2017-01-18
Publication date: 2017-06-13
Anticipated expiration: 2037-01-18
Also published as: CN106827139B

Abstract

The present invention discloses a kind of production technology of the hydrophobic bamboo wood of area load graphene oxide and silica, is related to technical field of composite materials, comprises the following steps：S1：Take absolute ethyl alcohol, deionized water and ammoniacal liquor to pour into beaker, be stirred, be made soak, tetraethyl orthosilicate is added in soak, be made colloid；S2：Colloid in the bamboo wood and step S1 that load graphene oxide is transferred in reactor carries out hydro-thermal reaction；S3：After the completion of hydro-thermal reaction, bamboo block is taken out, cleaned using deionized water, be then placed within vacuum drying chamber and be dried；S4：17 fluorine decyl trimethoxy silanes and methyl alcohol are mixed, is stirred, formed mixed liquor；S5：Dried bamboo block in step S3 is put into the mixed liquor of step S4, is stirred；S6：After the completion of stirring, bamboo block is taken out, bamboo block is rinsed using methyl alcohol, be then placed within vacuum drying chamber and be dried, product is obtained, bamboo wood obtained in present invention solution prior art cannot meet the technology of hydrophobic requirement.

Description

The hydrophobic bamboo wood and its production of a kind of area load graphene oxide and silica Technique

Technical field

The present invention relates to technical field of composite materials, more particularly to a kind of area load graphene oxide and silica Hydrophobic bamboo wood and its production technology.

Background technology

Bamboo wood is a kind of natural porous material, itself there are many holes not of uniform size, such as lumen, microfibril gap Deng；And in bamboo wood again contain many hydrophilic radicals so that moisture is easy to penetrate into inside bamboo wood, and with bamboo wood in some into Divide and combined with chemical bond or hydrogen bond formation, cause the swollen of fibril, so that bamboo wood size changes.Therefore, bamboo product exists Often because humidity change causes the change of material own dimensions stability in environment during use, cause material cracking and Deformation.Therefore need to consider that some actual application processes are processed and protected to bamboo wood, improve its dimensional stability.Than Such as, processed by paint, surface uses wax coating treatment, using heat treatment etc., but such handling process cannot expire The hydrophobic requirement of foot, and because these processing methods can cause environmental pollution, or even influence health.

The content of the invention

It is an object of the invention to provide the hydrophobic bamboo wood and its production of a kind of area load graphene oxide and silica Technique, solving bamboo wood obtained in prior art cannot meet the hydrophobic technical problem for requiring that health can be influenceed with bamboo wood；

The technical scheme that the present invention solves above-mentioned technical problem is as follows：

A kind of production technology of the hydrophobic bamboo wood of area load graphene oxide and silica, comprises the following steps：

S1：Take absolute ethyl alcohol, deionized water and ammoniacal liquor to pour into beaker, be stirred, soak is made, in soak Tetraethyl orthosilicate is added, colloid is made；

S2：Colloid in the bamboo wood and step S1 that load graphene oxide is transferred in reactor carries out hydro-thermal reaction；

S3：After the completion of hydro-thermal reaction, bamboo block is taken out, cleaned using deionized water, be then placed within vacuum drying chamber It is dried；

S4：17 fluorine decyl trimethoxy silanes and methyl alcohol are mixed, is stirred, formed mixed liquor；

S5：Dried bamboo block in step S3 is put into the mixed liquor of step S4, is stirred；

S6：After the completion of stirring, bamboo block is taken out, bamboo block is rinsed using methyl alcohol, be then placed within vacuum drying chamber and enter Row drying, is obtained product.

On the basis of above-mentioned technical proposal, the present invention can also do following improvement：

Further, the hydrothermal temperature in the step S2 is 90-130 DEG C, time 1-7h.

Further, the absolute ethyl alcohol in the step S1：Deionized water：Ammoniacal liquor：The volume ratio of tetraethyl orthosilicate is 165-175:17-19:2.5-3.5:8-10, wherein the mass fraction of the ammonia spirit is 25wt%-28wt%, absolute ethyl alcohol The content pure with tetraethyl orthosilicate chemistry is more than or equal to 99.5%, and analytically pure content is more than 99.9%.

Further, the stirring in the step S1, step S4 is stirred by magnetic stirring apparatus, and mixing time is 1-24h。

Further, the ratio of bamboo block and colloid is volume ratio 1 in the step S2:5-15.

Further, dry temperature is 50 DEG C in the step S3, and the time is 5-24h.

Further, 17 fluorine decyl trimethoxy silanes and methyl alcohol are mixed in 0.5-1.5wt% ratios in the step S4 Close.

Further, dry temperature is 50 DEG C in the step S6, and the time is 5-24h.

A kind of hydrophobic bamboo wood of area load graphene oxide and silica, the bamboo wood uses above-mentioned production technology system .

Beneficial effects of the present invention：

The present invention is processed bamboo wood using absolute ethyl alcohol, deionized water, ammoniacal liquor and tetraethyl orthosilicate so that bamboo wood table Face has certain mastoid process structure, and the hydrophobic performance of bamboo wood is improved with this；The present invention utilizes 17 fluorine decyl trimethoxy silanes Bamboo material surface is processed, reducing its surface can so that the bamboo wood contact angle for the treatment of improves dredging for bamboo wood beyond 152 ° It is aqueous；Used as substrate, intermediate layer uses grapheme material to present invention bamboo wood, and top layer proposes meter synthetic silica nano material Its surface is formed special micro/nano structure, be similar to the mastoid process structure with lotus leaf, improve hydrophobicity, then add 17 thereon The treatment of fluorine decyl trimethoxy silane reduces its surface energy, reaches super-hydrophobic effect, lifts dimensional stability.

Brief description of the drawings

Fig. 1 is a kind of production work of the hydrophobic bamboo wood of area load graphene oxide and silica of the embodiment of the present invention The schematic flow sheet of skill；

Fig. 2 is the immersion 90 day rate of body weight gain change comparison diagram of the bamboo wood with common bamboo wood of present invention process processing；

Fig. 3 is the immersion 90 day thickness swelling change comparison diagram of the bamboo wood with common bamboo wood of present invention process processing；

Fig. 4 is the bamboo wood and electricity of the colloid different volumes than under of load graphene oxide in specific embodiment of the invention 1-3 Mirror figure；

Fig. 5 is the electron microscope under different the hydro-thermal reaction times in specific embodiment of the invention 1-3；

Fig. 6 is the electron microscope under different hydrothermal temperatures in specific embodiment of the invention 1-3；

Specific embodiment

Technical scheme is clearly and completely described below in conjunction with accompanying drawing, it is clear that described implementation Example is a part of embodiment of the invention, rather than whole embodiments.Based on the embodiment in the present invention, ordinary skill The every other embodiment that personnel are obtained under the premise of creative work is not made, belongs to the scope of protection of the invention.

Embodiment 1：

A kind of production technology of the bamboo wood of area load graphene oxide and silica, comprises the following steps：

The bamboo wood of wherein load graphene oxide makes according to following steps：(1) graphene oxide dispersion is produced, by bamboo Material and graphene oxide dispersion are poured into reactor, and then reactor is put into baking box carries out hydro-thermal reaction；(2) hydro-thermal After the completion of reaction, reactor is taken out, treat its natural cooling；(3) bamboo block is taken out, is cleaned using distilled water；(4) cleaning is completed Afterwards, bamboo block is put into vacuum drying chamber and is dried, the bamboo wood of load graphene oxide is obtained；

Wherein, the hydrothermal temperature in the step S2 is 90 DEG C, time 1h.

Wherein, the absolute ethyl alcohol in the step S1：Deionized water：Ammoniacal liquor：The volume ratio of tetraethyl orthosilicate is 165:17: 2.5:8, wherein the mass fraction of the ammonia spirit is 25wt%-28wt%, absolute ethyl alcohol and tetraethyl orthosilicate chemistry are pure Content is more than or equal to 99.5%, and analytically pure content is more than 99.9%.

Wherein, the stirring in the step S1, step S4 is stirred by magnetic stirring apparatus, and mixing time is 1h.

Wherein, the ratio of bamboo block and colloid is volume ratio 1 in the step S2:5.

Wherein, dry temperature is 50 DEG C in the step S2, and the time is 5h.

Wherein, 17 fluorine decyl trimethoxy silanes and methyl alcohol are mixed in 0.5wt% ratios in the step S4.

Wherein, dry temperature is 50 DEG C in the step S6, and the time is 5h.

A kind of bamboo wood of area load graphene oxide and silica, the bamboo wood is obtained using above-mentioned production technology.

Fig. 2 and Fig. 3 give common bamboo wood and hydrophobic bamboo wood obtained in processing technology of the present invention soaked 90 days at room temperature Water absorption rate and thickness swelling situation of change, in figure a be common bamboo wood, in figure b be processing technology of the present invention obtained in it is hydrophobic Bamboo wood, it can be seen from upper figure, bamboo wood a absorbs water more in the short period of time, and thickness swelling is big, but extension over time, after Phase water suction weightening becomes slow, and water sucting thickness expansion also becomes more and more gentler in the later stage；By after soaked experiment in 90 days, material Water suction weightening reaches 145%, and thickness swelling reaches 16.3%；Its water absorption rate is bamboo wood b after soaked 90 days at room temperature 9.7%, thickness swelling is 0.5%；Can be drawn from figure, it is fine that present invention process processes the bamboo wood hydrophobicity to be formed.

Embodiment 2：

Wherein, the hydrothermal temperature of the step S2 is 110 DEG C, time 3h.

Wherein, the absolute ethyl alcohol in the step S1：Deionized water：Ammoniacal liquor：The volume ratio of tetraethyl orthosilicate is 175:19: 3.5:10。

Wherein, the stirring in the step S1, step S5 is stirred by magnetic stirring apparatus, and mixing time is 24h.

Wherein, the ratio of bamboo block and colloid is volume ratio 1 in the step S2:10.

Wherein, dry temperature is 50 DEG C, time 24h in the step S3.

Wherein, 17 fluorine decyl trimethoxy silanes and methyl alcohol are mixed in 1.5wt% ratios in the step S4.

Wherein, dry temperature is 50 DEG C in the step S6, and the time is 24h.

Embodiment 3：

Wherein, the hydrothermal temperature in the step S2 is 130 DEG C, time 7h.

Wherein, the absolute ethyl alcohol in the step S1：Deionized water：Ammoniacal liquor：The volume ratio of tetraethyl orthosilicate is 170:18: 3:9。

Wherein, the stirring in the step S1, step S4 is stirred by magnetic stirring apparatus, and mixing time is 24h.

Wherein, the ratio of bamboo block and colloid is volume ratio 1 in the step S2:15.

Wherein, dry temperature is 50 DEG C in the step S3, and the time is 24h.

Wherein, 17 fluorine decyl trimethoxy silanes and methyl alcohol are mixed in 1.0wt% ratios in the step S4.

Wherein, dry temperature is 50 DEG C in the step S6, and the time is 24h.

Contrast above-described embodiment, the bamboo wood on loading graphene oxide compares the influence of bamboo wood with colloidal volume, wherein Fig. 4 a, Fig. 4 b are that the bamboo wood and colloidal volume ratio of load graphene oxide are 1:The electron microscope of obtained bamboo wood is processed under the conditions of 5, Fig. 4 a are high power electron microscope, and Fig. 4 b are low power electron microscope；Fig. 4 c, Fig. 4 d are the bamboo wood and colloidal volume ratio for loading graphene oxide It is 1:The electron microscope of obtained bamboo wood is processed under the conditions of 10, Fig. 4 c are high power electron microscope, and Fig. 4 d are low power electron microscope；Fig. 4 e, figure 4f is the bamboo wood of load graphene oxide and colloidal volume ratio is 1:The electron microscope of obtained bamboo wood is processed under the conditions of 15, Fig. 4 e are High power electron microscope, Fig. 4 f are low power electron microscope；As seen from the figure, seen under low power lens, load the bamboo wood and colloid of graphene oxide When volume ratio is 1/10, distribution is more uniform, and after colloidal volume is increased, such as Fig. 4 e and Fig. 4 f visible surfaces load capacity continues to increase Greatly, but visible under high power lens occurred in that situation about being stacked with is more；When volume ratio drops to 1/5, bamboo material surface load capacity Reduce, the part nonloaded silica coating on graphene nanometer sheet, whole bamboo block surface is still skewness.It is comprehensive next See, in 1/10 volume ratio, the distribution of silica nanometer coating is more uniform.

Influence on the hydro-thermal reaction time to bamboo wood, wherein Fig. 5 a, Fig. 5 b are the hydro-thermal reaction time to add under the conditions of 1h The electron microscope of bamboo wood obtained in work, Fig. 5 a are high power electron microscope, and Fig. 5 b are low power electron microscope；When Fig. 5 c, Fig. 5 d are hydro-thermal reaction Between be the electron microscope of the obtained bamboo wood of processing under the conditions of 3h, Fig. 5 c are high power electron microscope, and Fig. 5 d are low power electron microscope；Fig. 5 e, figure 5f is the electron microscope that the hydro-thermal reaction time is the obtained bamboo wood of processing under the conditions of 7h, and Fig. 5 e are high power electron microscope, and Fig. 5 f are low power Electron microscope；Knowable on Fig. 5, under the conditions of reaction time 1h and 7h, the redox graphene load capacity of load is larger, bears thereon The amount of the silica of load is very more, it is seen that the deposition of graphene nanometer sheet very effectively can provide position to silica Point, on the one hand can be by chemical action, on the other hand can be by physical absorption, and silica nanosphere is in bamboo wood most appearance Face combines and is fully deposited in Graphene site so that bamboo material surface possesses substantial amounts of mastoid process structure, and mastoid process structure is more, hydrophobicity Better.

Influence on hydrothermal temperature to bamboo wood, wherein Fig. 6 a, Fig. 6 b are hydrothermal temperature under the conditions of 90 DEG C The electron microscope of the obtained bamboo wood of processing, Fig. 6 a are high power electron microscope, and Fig. 6 b are low power electron microscope；Fig. 6 c, Fig. 6 d are hydro-thermal reaction Temperature is the electron microscope of the obtained bamboo wood of processing under the conditions of 110 DEG C, and Fig. 6 c are high power electron microscope, and Fig. 6 d are low power electron microscope；Figure 6e, Fig. 6 f are the electron microscope that hydrothermal temperature is the obtained bamboo wood of processing under the conditions of 130 DEG C, and Fig. 6 e are high power electron microscope, figure 6f is low power electron microscope；Knowable on Fig. 6, hydrothermal temperature can significantly affect crystallization reaction process.Can be clear from electron microscope See that temperature is gradually increased to 130 DEG C of process from 90 DEG C, the silica nanosphere particle of area load is smaller, load is more Uniformly, so that hydrophobicity is more preferable.

Obtained bamboo wood of the invention is under low power lens it can be seen that bamboo material surface grown many silica dioxide granules, titanium dioxide Silicon grain densification is distributed on whole redox graphene layer, and quantity is a lot.See two with being apparent under high power lens Silica is spherical, and diameter is about 0.4 μm, can be clearly observable its surface roughness increase after nonloaded silica；Through After 17 fluorine decyl trimethoxy silane hydrophobic treatments, it is seen that coarse spherical surface is covered by wax material, and surface is in Reveal the mastoid process structure of various similar lotus leaf surfaces, this is also the condition that super hydrophobic material needs to have；

Bamboo wood is hydrophilic matrix, and after loading redox graphene, RGOB T bamboo material surfaces become more hydrophilic, Contact angle is 0 °.Because graphene oxide is reduced insufficient in bamboo material surface, it is oxygen-containing that its surface is still present carboxyl, hydroxyl etc. Group, on the other hand the stannic oxide/graphene nano piece of reduction is not very uniform in bamboo material surface load, by stacked in multi-layers There is hole between mode middle sheet, so that water droplet easily penetrates on surface, so that hydrophily strengthens.Load The contact angle of the bamboo wood after silica nanosphere has reached 140 °, and hydrophobic performance is higher, according to electronic microscope photos above, it is known that Silica nanosphere is supported on redox graphene net so that surface exhibits go out certain mastoid process structure so that its Hydrophobic performance is greatly promoted, but without reaching 152 ° of super-hydrophobic requirement.

The present invention has found by research：The hierarchical structure that nanometer is combined with micrometer structure, can be effectively reduced water droplet In the roll angle on surface, the movement tendency of water droplet is directly influenced.Therefore, by using 17 fluorine decyl trimethoxy silanes pair Its surface is processed, and drops low-surface-energy so that the contact angle of bamboo wood improves the hydrophobic effect of product beyond 152 °.

The foregoing is only presently preferred embodiments of the present invention, be not intended to limit the invention, it is all it is of the invention spirit and Within principle, any modification, equivalent substitution and improvements made etc. should be included within the scope of the present invention.

Claims

1. the production technology of the hydrophobic bamboo wood of a kind of area load graphene oxide and silica, it is characterised in that including with Lower step：

S1：Take absolute ethyl alcohol, deionized water and ammoniacal liquor to pour into beaker, be stirred, be made soak, added in soak Tetraethyl orthosilicate, is made colloid；

S3：After the completion of hydro-thermal reaction, bamboo block is taken out, cleaned using deionized water, being then placed within vacuum drying chamber is carried out Dry；

S6：After the completion of stirring, bamboo block is taken out, bamboo block is rinsed using methyl alcohol, be then placed within vacuum drying chamber and done It is dry, product is obtained.

2. the production work of the hydrophobic bamboo wood of a kind of area load graphene oxide according to claim 1 and silica Skill, it is characterised in that the hydrothermal temperature in the step S2 is 90-130 DEG C, time 1-7h.

3. the production work of the hydrophobic bamboo wood of a kind of area load graphene oxide according to claim 2 and silica Skill, it is characterised in that the absolute ethyl alcohol in the step S1：Deionized water：Ammoniacal liquor：The volume ratio of tetraethyl orthosilicate is 165- 175:17-19:2.5-3.5:8-10。

4. the production work of the hydrophobic bamboo wood of a kind of area load graphene oxide according to claim 3 and silica Skill, it is characterised in that the stirring in the step S1, step S5 is stirred by magnetic stirring apparatus, and mixing time is 1- 24h。

5. the production work of the hydrophobic bamboo wood of a kind of area load graphene oxide according to claim 4 and silica Skill, it is characterised in that the ratio of bamboo block and colloid is volume ratio 1 in the step S2:5-15.

6. the production work of the hydrophobic bamboo wood of a kind of area load graphene oxide according to claim 5 and silica Skill, it is characterised in that dry temperature is 50 DEG C in the step S3, and the time is 5-24h.

7. the production work of the hydrophobic bamboo wood of a kind of area load graphene oxide according to claim 6 and silica Skill, it is characterised in that 17 fluorine decyl trimethoxy silanes and methyl alcohol are mixed in 0.5-1.5wt% ratios in the step S4.

8. the production work of the hydrophobic bamboo wood of a kind of area load graphene oxide according to claim 7 and silica Skill, it is characterised in that dry temperature is 50 DEG C in the step S3, and the time is 5-24h.

9. the hydrophobic bamboo wood of a kind of area load graphene oxide and silica, it is characterised in that the bamboo wood uses right It is required that a kind of production technology of the hydrophobic bamboo wood of area load graphene oxide and silica described in 1-9 is obtained.