CN110479953A - A kind of riser precoated sand - Google Patents

Abstract

The invention belongs to precoated sand manufacturing technology fields, and in particular to a kind of riser precoated sand, the raw material including following mass fraction: 7000-9000 parts of aggregate, 140-170 parts of phenolic resin, 80-120 parts of exothermic mixture, 18-25 parts of curing agent and calcium.The intensity and heating temperature of riser can be improved in the riser precoated sand.

Description

A kind of riser precoated sand

Technical field

The present application relates to precoated sand manufacturing technology fields, and in particular to a kind of riser precoated sand.

Background technique

Riser, which refers to, is attached to the supplement part of above casting or side to avoid casting from defect occur.The type chamber of riser It is the cavity for storing liquid metal, feeds metal in casting formation, prevents shrinkage cavity and porosity, exhaust sum aggregate slag.

Common riser is divided into insulated feeder and exothermic riser two major classes by its function, and insulated feeder usually makes It is formed with higher thermal resistance and the biggish material of amount of stored heat, such as glass pearl, asbestos fibre using binder compression moulding, Its main function be when casting molten metal type it is intracavitary fill type it is complete after injected by riser bottom through-hole from the intracavitary spilling of type Riser inner cavity, with the condensation of the intracavitary molten metal of type, because temperature reduces volume contraction occurs for the intracavitary molten metal volume of type, at this moment It will flow back in the intracavitary metal liquid still in the condition of high temperature of insulated feeder and inject the volume of intracavitary its contraction of supplement of casting mold type, To achieve the purpose that feeding.Because of different technique and castings desire in actual process, also largely using exothermic riser to solve Not the problem of still not can solve feeding using insulated feeder cmpletely, after exothermic riser enters riser cavity because of its casting liquid It is anti-to cause the exothermic mixture generation heat chemistry redox in exothermic riser for high temperature when riser being caused to contact high temperature (1200 DEG C or more) It answers, this reaction process can release a large amount of heat and make the high-temperature liquid metal of riser not but not cool down that temperature can be increased instead Degree causes the molten metal in riser to have the time of high temperature longer, has the function of better feeding, to make the metal in casting mold Also effective feeding can be obtained when liquid retraction volume is larger.

Aggregate is done in using thermal insulation material for traditional riser, makees binder using liquid organic material, manufacturing process is numerous Miscellaneous, pollution is big, and production efficiency is low, and conventional vacuum riser is to be protected using its isolation and the heat exchange and accumulation of heat of environment to reach Temperature, feeding capacity is limited, and application conditions are restricted.

Summary of the invention

The purpose of the present invention is to provide a kind of riser precoated sands, and the intensity of riser can be improved using the riser precoated sand And heating temperature.

In order to achieve the above objectives, base case of the invention is as follows: a kind of riser precoated sand, including following mass fraction Raw material: 7000-9000 parts of aggregate, 140-170 parts of phenolic resin, 80-150 parts of exothermic mixture, 16-30 parts of curing agent, water 70-90 Part and calcium stearate 7-9 parts.

Be using the working principle and beneficial effect of this base case: 1. the application are in existing coated sand technology On, novel film coating sand is made in aggregate in exothermic mixture overlay film, obtains that the precoated sand of more high heat can be provided, is emitted for heat preservation Mouthful.2. traditional using thermal insulation material for riser does aggregate, binder is made using liquid organic material, manufacturing process is many and diverse, And the intensity of riser is low easily broken, the riser precoated sand intensity of the application is high, pollution-free.3. conventional vacuum riser is to utilize it Completely cutting off heat exchange and accumulation of heat with environment to achieve the effect that heat preservation, feeding capacity is limited, and application conditions are restricted, and this The riser precoated sand of application can add the exothermic mixture of not same amount ratio according to different application conditions to realize different heat effect. 4. joined calcium stearate in the application, the effect of lubrication can be played, riser precoated sand mobility is improved, when preparing riser Gap between precoated sand is small, and the riser intensity of preparation is higher.

Further, the aggregate is quartz sand.Quartz sand is hard, wear-resisting, stable chemical performance and price are lower, uses stone Sand is more preferable as filming agent performance made from aggregate and cost is relatively low.

Further, the curing agent is methenamine.Methenamine is the curing agent of common resin and plastics, is easy to obtain It obtains and cost is relatively low.

Further, the curing agent includes methenamine solution and liquid curing-agent, wherein methenamine solution and liquid The mass ratio of curing agent is 1:2.Curing agent uses the mixed solution of methenamine solution and liquid curing-agent, carries out to aggregate When overlay film, resin and exothermic mixture can be preferably set to be bonded in aggregate surface, and bond more uniform.

Further, the concentration of the methenamine solution is 15%-30%.Inventor has found by test of many times, uses The performance of the riser precoated sand of the methenamine solution preparation of above-mentioned concentration is more preferable.

Further, the raw material including following mass fraction: 7500-8500 parts of aggregate, 150-160 parts of phenolic resin, hair 90-110 parts of thermit powder, 20-24 parts of curing agent, 75-85 parts of water and 7-9 parts of calcium stearate.Inventor has found by test of many times, adopts The precoated sand effect prepared with the raw material of above-mentioned mass fraction is more preferable.

Further, the raw material including following mass fraction: 8000 parts of aggregate, 160 parts of phenolic resin, 100 parts of exothermic mixture, 22.5 parts of curing agent, 80 parts of water and 8 parts of calcium stearate.Inventor has found by test of many times, using the original of above-mentioned mass fraction The precoated sand effect of material preparation is more preferable.

Further, the exothermic mixture includes aluminium powder and iron oxide black.In the present solution, using bi-component exothermic mixture, preparation The heating effect of riser precoated sand is more preferable.

Further, the mass ratio of the aluminium powder and iron oxide black is 1:2-4.

Further, riser precoated sand the preparation method is as follows:

(1) raw material preparation: prepare the raw material of following mass fraction: 7000-9000 parts of aggregate, 140-170 parts of phenolic resin, 80-150 parts of exothermic mixture, 16-30 parts of curing agent, 70-90 parts of water and 7-9 parts of calcium stearate, wherein exothermic mixture includes aluminium powder and oxygen Change is iron black, and the mass ratio of aluminium powder and iron oxide black is 1:2-4；

(2) it heats: the aggregate in step (1) being heated to 170 DEG C or more, is poured into mulling pot；

(3) resin is added: the aggregate in mulling pot is stirred, waits until that sand temperature is 145-160 DEG C, is added step (1) In phenolic resin；And start timing；

(4) exothermic mixture is added: aluminium powder is added in 5-10s, iron oxide black is added in 15-25s；

(5) add water: waiting until that sand temperature is 125-135 DEG C, the water in step (1) is added；

(6) curing agent is added；Until sand temperature be 100-115 DEG C, then be added step (1) in curing agent；

(7) calcium is added: waiting until that sand temperature is 86-95 DEG C, the calcium stearate in step (1) is then added；

(8) it discharges: waiting until that sand temperature is 78-85 DEG C, discharging.

In the present solution, compared with the prior art, coated temperature improves 8 DEG C or more when making riser precoated sand, so that The heating effect of the riser precoated sand of preparation is more preferable, and the preparation process of riser precoated sand is simple, and cost is lower.

Specific embodiment

It is further described below by specific embodiment:

It is described in detail by taking embodiment 1, embodiment 2 as an example below, other embodiments are shown in table 1, wherein implementing The unshowned part in table example 3-11 is same as Example 2, and the aggregate in the present embodiment is quartz sand.

Embodiment 1

A kind of preparation method of riser precoated sand, includes the following steps:

(1) raw material preparation: prepare the raw material of following mass fraction: 8000 parts of aggregate, 160 parts of phenolic resin, exothermic mixture 100 Part, 22 parts of curing agent, 80 parts of water and 8 parts of calcium stearate, wherein exothermic mixture includes aluminium powder and iron oxide black, aluminium powder and iron oxide black Mass ratio be 1:3；

(2) it heats: the aggregate in step (1) being poured into mulling pot and is heated to 140 DEG C, and starts timing；

(3) exothermic mixture is added: aluminium powder is added in 5-10s, iron oxide black is added in 15-25s；

(4) resin is added: waiting until that sand temperature is 135 DEG C, the phenolic resin in step (1) is added；

(5) add water: waiting until that sand temperature is 129 DEG C, the water in step (1) is added；

(6) curing agent is added；Until sand temperature be 108 DEG C, then be added step (1) in curing agent；

(7) calcium is added: waiting until that sand temperature is 89 DEG C, the calcium stearate in step (1) is then added；

(8) it discharges: waiting until that sand temperature is 85 DEG C, discharging.

Embodiment 2

(1) raw material preparation: prepare the raw material of following mass fraction: 8000 parts of aggregate, 160 parts of phenolic resin, exothermic mixture 100 Part, 22 parts of curing agent, 80 parts of water and 8 parts of calcium stearate, wherein exothermic mixture includes aluminium powder and iron oxide black, aluminium powder and iron oxide black Mass ratio be 1:3；

(2) it heats: the aggregate in step (1) being heated to 170 DEG C, is poured into mulling pot；

(3) resin is added: the aggregate in mulling pot is stirred, until sand temperature is 145 DEG C, in addition step (1) Phenolic resin；And start timing；

(4) exothermic mixture is added: aluminium powder is added in 5-10s, iron oxide black is added in 15-25s；

(5) add water: waiting until that sand temperature is 128 DEG C, the water in step (1) is added；

(6) curing agent is added；Until sand temperature be 109 DEG C, then be added step (1) in curing agent；

(7) calcium is added: waiting until that sand temperature is 89 DEG C, the calcium stearate in step (1) is then added；

(8) it discharges: waiting until that sand temperature is 85 DEG C, discharging.

Table 1

Embodiment 12

A kind of preparation method of riser precoated sand, includes the following steps:

(1) raw material preparation: prepare the raw material of following mass fraction: 8000 parts of aggregate, 160 parts of phenolic resin, exothermic mixture 100 Part, 48 parts of curing agent, 80 parts of water and 8 parts of calcium stearate, wherein exothermic mixture includes aluminium powder and iron oxide black, aluminium powder and iron oxide black Mass ratio be 1:3；Curing agent includes methenamine solution and liquid curing-agent, the matter of methenamine solution and liquid curing-agent Amount is than being 1:2；Aggregate in the present embodiment is quartz sand, and the liquid curing-agent in the present embodiment is a kind of liquid phenolic resin, The concentration of methenamine solution is 15%；

(2) heat: by step (1) aggregate and iron oxide black be poured into mulling pot and be heated to 200 DEG C；

(3) be mixed: by step (1) aluminium powder and liquid curing-agent stir evenly, be made mixed liquor；

(4) resin is added: waiting until that sand temperature is 145 DEG C, the phenolic resin in step (1) is added；

(5) add mixed liquor: waiting until that sand temperature is 135 DEG C, the mixed liquor in step (3) is added；

(6) add water；Until sand temperature be 128 DEG C, then be added step (1) in water；

(7) curing agent is added: waiting until that sand temperature is 107 DEG C, the methenamine solution in step (1) is then added；

(8) calcium is added: waiting until that sand temperature is 92 DEG C, the calcium stearate in step (1) is then added；

(9) it discharges: waiting until that sand temperature is 80 DEG C, discharging.

Embodiment 13

(1) raw material preparation: prepare the raw material of following mass fraction: 8000 parts of aggregate, 160 parts of phenolic resin, exothermic mixture 100 Part, 48 parts of curing agent, 80 parts of water and 8 parts of calcium stearate, wherein exothermic mixture includes aluminium powder and iron oxide black, aluminium powder and iron oxide black Mass ratio be 1:3；Curing agent includes methenamine and liquid curing-agent, and the mass ratio of methenamine and liquid curing-agent is 1: 2；Aggregate in the present embodiment is quartz sand, and the liquid curing-agent in the present embodiment is a kind of liquid phenolic resin, methenamine The concentration of solution is 15%；

(2) be mixed: by step (1) aluminium powder and liquid curing-agent stir evenly；

(3) resin is added: waiting until that sand temperature is 145 DEG C, the phenolic resin in step (1) is added；

(4) iron oxide black is added: waiting until that sand temperature is 140 DEG C, the iron oxide black in step (1) is added；

(5) liquid curing-agent is added: waiting until that sand temperature is 135 DEG C, the liquid curing-agent in step (1) is then added；

(6) add water；Until sand temperature be 128 DEG C, then be added step (1) in water；

(7) curing agent is added: until sand temperature is 107 DEG C, being then added in step (1) is methenamine solution；

(8) calcium is added: waiting until that sand temperature is 92 DEG C, the calcium stearate in step (1) is then added；

(9) it discharges: waiting until that sand temperature is 80 DEG C, discharging.

Embodiment 14

(1) raw material preparation: prepare the raw material of following mass fraction: 8000 parts of aggregate, 160 parts of phenolic resin, exothermic mixture 100 Part, 48 parts of curing agent and 8 parts of calcium stearate, wherein exothermic mixture includes aluminium powder and iron oxide black, the quality of aluminium powder and iron oxide black Than for 1:3；Curing agent includes methenamine and liquid curing-agent, and the mass ratio of methenamine and liquid curing-agent is 1:2；This reality Applying the aggregate in example is quartz sand, and the liquid curing-agent in the present embodiment is a kind of liquid phenolic resin, methenamine solution Concentration is 20%；

(2) be mixed: by step (1) aluminium powder and liquid curing-agent stir evenly；

(3) resin is added: waiting until that sand temperature is 145 DEG C, the phenolic resin in step (1) is added；

(4) iron oxide black is added: waiting until that sand temperature is 140 DEG C, the iron oxide black in step (1) is added；

(5) liquid curing-agent is added: waiting until that sand temperature is 135 DEG C, the liquid curing-agent in step (1) is then added；

(6) add water；Until sand temperature be 129 DEG C, then be added step (1) in water；

(7) curing agent is added: until sand temperature is 107 DEG C, being then added in step (1) is methenamine solution；

(8) calcium is added: waiting until that sand temperature is 92 DEG C, the calcium stearate in step (1) is then added；

(9) it discharges: waiting until that sand temperature is 80 DEG C, discharging.

Embodiment 15

(1) raw material preparation: prepare the raw material of following mass fraction: 8000 parts of aggregate, 160 parts of phenolic resin, exothermic mixture 100 Part, 48 parts of curing agent and 8 parts of calcium stearate, wherein exothermic mixture includes aluminium powder and iron oxide black, the quality of aluminium powder and iron oxide black Than for 1:3；Curing agent includes methenamine and liquid curing-agent, and the mass ratio of methenamine and liquid curing-agent is 1:2；This reality Applying the aggregate in example is quartz sand, and the liquid curing-agent in the present embodiment is a kind of liquid phenolic resin, methenamine solution Concentration is 30%；

(2) be mixed: by step (1) aluminium powder and liquid curing-agent stir evenly；

(3) resin is added: waiting until that sand temperature is 150 DEG C, the phenolic resin in step (1) is added；

(4) iron oxide black is added: waiting until that sand temperature is 140 DEG C, the iron oxide black in step (1) is added；

(5) liquid curing-agent is added: waiting until that sand temperature is 137 DEG C, the liquid curing-agent in step (1) is then added；

(6) add water；Until sand temperature be 129 DEG C, then be added step (1) in water；

(7) curing agent is added: until sand temperature is 107 DEG C, being then added in step (1) is methenamine solution；

(8) calcium is added: waiting until that sand temperature is 92 DEG C, the calcium stearate in step (1) is then added；

(9) it discharges: waiting until that sand temperature is 80 DEG C, discharging.

Comparative example 1

(1) raw material preparation: prepare the raw material of following mass fraction: 8000 parts of aggregate, 192 parts of phenolic resin, curing agent 28.8 parts, 80 parts and 8 parts of calcium stearate of water, wherein curing agent is methenamine, and aggregate is quartz sand；

(2) it heats: aggregate being heated to 200 DEG C in the heater, then aggregate is transferred to mulling pot；

(3) resin is added: to sand temperature drop to 140 DEG C, phenolic resin in step (1) is added；

(6) add water: to sand temperature drop to 129 DEG C, water is then added；

(7) curing agent is added: to sand temperature drop to 107 DEG C, being then added in step (1) is methenamine；

(8) calcium is added: to sand temperature drop to 92 DEG C, the calcium stearate in step (1) is then added；

(9) it discharges: to sand temperature drop to 80 DEG C, discharging.

It is strong that the riser precoated sand that the above various embodiments and comparative example are prepared is detected into its tensile strength, hot bending resistance respectively The indexs such as degree, cold bending strength, heat condition, detection are obtained such as the result in table 2:

Table 2

It can be seen from Table 2 that: 1, when high-temperature roasting test, two kinds of sand cores are put into Muffle furnace simultaneously, right under same time Ratio manufacture the direct blackening of sand core after whiten, using this programme manufacture sand core directly whiten, after redden.

2, after high-temperature roasting 2-3 minutes, while sand core being taken out, after cooling 10-20S, with pliers pinch off sand core, discovery is adopted There is the sand core temperature rubescent, i.e. that the sand core temperature of this programme manufacture manufactures more in the prior art with the sand core internal that this programme manufactures Height has fever phenomenon, and the greenhouse cooling using temperature measurer thermometric sand core is obviously slow, the sand core taken out in 1000 DEG C of Muffle furnaces It is not less than 600 DEG C in 20 seconds test temperatures, and the temperature that the film covered sand core of the prior art is tested simultaneously is less than 200 degrees Celsius.

3, after ordinary resin overlay film, can all there be dust conglomeration particle, after selecting the resin of this programme, improve coated temperature, Exothermic mixture overlay film can be made to sand grain surface.

What has been described above is only an embodiment of the present invention, and the common sense such as well known specific structure and characteristic are not made herein in scheme Excessive description.It, without departing from the structure of the invention, can be with it should be pointed out that for those skilled in the art Several modifications and improvements are made, these also should be considered as protection scope of the present invention, these all will not influence what the present invention was implemented Effect and patent practicability.The scope of protection required by this application should be based on the content of the claims, in specification The records such as specific embodiment can be used for explaining the content of claim.

Claims (10)

1. a kind of riser precoated sand, which is characterized in that the raw material including following mass fraction: 7000-9000 parts of aggregate, phenolic aldehyde 140-170 parts of resin, 80-150 parts of exothermic mixture, 16-30 parts of curing agent, 70-90 parts of water and 7-9 parts of calcium stearate.

2. a kind of riser precoated sand according to claim 1, which is characterized in that the aggregate is quartz sand.

3. a kind of riser precoated sand according to claim 2, which is characterized in that the curing agent is methenamine.

4. a kind of riser precoated sand according to claim 2, which is characterized in that the curing agent includes methenamine solution And liquid curing-agent, wherein the mass ratio of methenamine solution and liquid curing-agent is 1:2.

5. a kind of riser precoated sand according to claim 4, it is characterised in that: the concentration of the methenamine solution is 15%-30%.

6. a kind of riser precoated sand according to claim 1, it is characterised in that: the raw material including following mass fraction: 7500-8500 parts of aggregate, 150-160 parts of phenolic resin, 90-110 parts of exothermic mixture, 20-24 parts of curing agent, 75-85 parts of water and hard 7-9 parts of resin acid calcium.

7. a kind of riser precoated sand according to claim 6, it is characterised in that: the raw material including following mass fraction: 8000 parts of aggregate, 160 parts of phenolic resin, 100 parts of exothermic mixture, 22.5 parts of curing agent, 80 parts of water and 8 parts of calcium stearate.

8. a kind of riser precoated sand according to claim 1, it is characterised in that: the exothermic mixture includes aluminium powder and iron oxide It is black.

9. a kind of riser precoated sand according to claim 8, it is characterised in that: the mass ratio of the aluminium powder and iron oxide black For 1:2-4.

10. a kind of riser precoated sand according to claim 9, it is characterised in that: riser precoated sand the preparation method is as follows:

(1) raw material preparation: prepare the raw material of following mass fraction: 7000-9000 parts of aggregate, 140-170 parts of phenolic resin, fever 80-150 parts of agent, 16-30 parts of curing agent, 70-90 parts of water and 7-9 parts of calcium stearate, wherein exothermic mixture includes aluminium powder and iron oxide Black, the mass ratio of aluminium powder and iron oxide black is 1:2-4；

(2) it heats: the aggregate in step (1) being heated to 170 DEG C or more, is poured into mulling pot；

(3) resin is added: the aggregate in mulling pot is stirred, until sand temperature is 145-160 DEG C, in addition step (1) Phenolic resin；And start timing；

(4) exothermic mixture is added: aluminium powder is added in 5-10s, iron oxide black is added in 15-25s；

(5) add water: waiting until that sand temperature is 125-135 DEG C, the water in step (1) is added；

(6) curing agent is added；Until sand temperature be 100-115 DEG C, then be added step (1) in curing agent；

(7) calcium is added: waiting until that sand temperature is 86-95 DEG C, the calcium stearate in step (1) is then added；

(8) it discharges: waiting until that sand temperature is 78-85 DEG C, discharging.