The examples of the การประดิษฐ์นี้

The examples of the การประดิษฐ์นี้ show reduced petiole angle,
demonstrating that the treatment with those example สูตรผสมs blocks the effect of ethylene, allowing the treated plants to behave more like the plants that were not exposed to ethylene.
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Example 7
The 1-เมธิลไซโคลโพรพีน-ไซโคลเด็กซตริน complex (hereafter "HAIP")
particles are prepared as previously described and ผงที่ถูกเคลือบ are made using
Procedure P1 with a wax or mixture of วัสดุ ประเภทแวกซ์, ที่รวมถึง hydrogenated 25 Stearic acid or vegetable oil, โพลีเอธิลีน wax, microcrystalline wax, and beewax.
0.1 — 5 % surfactants dispersants, and/or plasticizers, ที่รวมถึง Agrimer Al-22, are added into the preparation.






A ส่วนเคลือบที่สอง (outer coating) is prepared using a โพลิเมอร์ ที่รวมถึง Ethocel or โพลีเทอร์พีน.
Three different samples are prepared and release rate of
1-เมธิลไซโคลโพรพีน (1-MCP) in a water solution is shown in รูป 1.
5 F71 - a microcrystalline wax particle containing 30% HAIP particles.
F72 - a microcrystalline wax particle containing 15% HAIP particles.
F73 — F71 further coated with Ethocel to yield particles containing 15% HAIP.
Using Procedure P2 as shown in รูป 1, both samples F71 and F72
10 (wax-coated particles) can protect (i.e., delay of 1-MCP release) the HAIP particles
well in comparison to unprotected HAIP particles. Typically unprotected HAIP will
release 100% 1-MCP in about 30 minutes under such condition (CF11). As
expected due to a lower HAIP concentration, F72 with 15% HAIP releases 1-MCP
much slower than F71 with 30% HAIP. Unexpectedly, F73, overcoated with the 15 Ethocel, releases 1-MCP about two folds slower than F72 and as the slowest among
all three samples, even after six hours with agitation. This much slower release rate
will enhance safety by reducing flammable gaseous 1-MCP concentration inside a
sprayer and deliver more active to targets. The appearances of the overcoated
particles are shown in รูป 7.
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Example 8
An additional sample, F81 (wax overcoated, Ethocel-coated HAIP), is
prepared by ส่วนเคลือบที่หนึ่ง the HAIP particles with Ethocel to yield a 70% HAIP in Ethocel, and then overcoated with MC wax, yielding 21% HAIP net. Sample F81
25 shows faster release of 1-MCP than sample F71 (wax-coated HAIP at 30% HAIP
loading) and much faster than F73 (Ethocel overcoated, wax-coated HAIP). Table 9
shows the results ที่รวมถึง F81.


Table 9. 1-MCP release rate (%) at 1, 2, and 6 hours under Procedure P2 as รูป 1.
ผงที่ถูกเคลือบs by Procedure P1 are made with 40% HAIP loading and
วัสดุ ประเภทแวกซ์ Dritex S (DSP). They are further overcoated via a spinning disk
process. According to Procedure P2, the release rates of 1-MCP are measured and 5 results of สูตรผสมs F82, F83 and F84 are shown in Table 10.
The above data show not all overcoating process or composition is effective
in protecting the inner particles. Almost no protective benefits was observed when 10 โพลีเทอร์พีน Piccolyte A135 was used to overcoat the ผงที่ถูกเคลือบ particles made
of Dritex S in a spinning disk process. However, โพลีเทอร์พีน was found to be very
effective in overcoating ผงที่ถูกเคลือบs made of MC wax or polywax. Accordingly,
ผงที่ถูกเคลือบs containing 20% HAIP, and Polywax and Dritex S separately are







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coated with โพลีเทอร์พีน. The protective results are compared under Procedure P2. Overcoating ผงที่ถูกเคลือบs made of polywax 500 by โพลีเทอร์พีน โพลิเมอร์ is
effective but to Dritex S is not.
Under procedure P2, the release rate of 1-MCP from โพลีเทอร์พีน overcoated 5 powder particles made of polywax is reduced to 3.8%, 5.0%, and 8.8% after 1, 2,
and 6 hours agitation while the ผงที่ถูกเคลือบs made of Dritex S still have 14.8%,
22.2%, and 32.8% after 1, 2 and 6 hours agitation. The results are summarized in Table 11.

Table 11.
Example 9
Overcoating via spray drying: ผงที่ถูกเคลือบ particles made of 30% HAIP
and Microcrystalline wax are dispersed in hexane, which has dissolved โพลีเทอร์พีน
Piccolyte A135. The ratio of the โพลิเมอร์ to ผงที่ถูกเคลือบs in this สเลอร์รี่ is varied 15 from 1:3, 1:2, to 1:1. The สเลอร์รี่ is spray dried under the appropriate conditions in
less than 2 hours, often less than 1 hour time period. The particles are collected and
release rates of the active are analyzed in the presence of wetting agents versus
un-overcoated control. A set of samples #1-8 are prepared and the protective results
according to Procedure P2 are shown in FIGS. 2-4, where faster release rates
20 indicate a poorer protection.
A comparison of อนุภาค ที่ถูกเคลือบทับ and un-อนุภาค ที่ถูกเคลือบทับ (i.e.,
coated particles or ลูกกลมs) made from microcrystalline wax (M08476-9 (#1 & 2/3) is
shown in รูป 2, where representative release rates under Procedure P2 of the first
group (initial coating — brushdown samples) are shown with 25% โพลิเมอร์. Initial 25 sample shows dramatic reduction in release rate (i.e., increased protection).







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Also a comparison of spray overcoated samples (#5-8) with 25%, 33% and 50% overcoating โพลิเมอร์ is shown in รูป 3, where representative results of stress testing 2.0 (ST2.0) of the second group are shown. Significant protection was
achieved through a spray drying overcoating process.
5 Exemplary relationship for coating impact between release % of the active
and โพลิเมอร์ Piccolyte Al 3 5wt% is shown in รูป 4, where representative release rates under stress testing 2.0 (ST2.0) versus coating wt% are shown. The data suggest that the more the coating โพลิเมอร์, the better the protection for the active ingredient 1-MCP.
10 Samples in this example are prepared using spray drying from ผงที่ถูกเคลือบ
particles dispersed in a hexane containing โพลีเทอร์พีน Piccolyte A135. The results show the method provided in this example is a major improvement in protecting release of active ingredient in water compared to existing สูตรผสมs.


15 Example 10
Benefit of overcoating via fluid bed process — ผงที่ถูกเคลือบs with 30% and
40% HAIP in Dritex S wax are overcoated by Neocryl XK-82, which is a 40%wt
emulsion of polyacrylic-styrene โพลิเมอร์ in water. The ลูกกลมs are fluidized in a
Hurtling Univac fluid-bed coater with a bed temperature of 35°C and the solution is 20 injected under the proper temperatures and injection rates. After the target solid is
injected, the coating is stopped and sample is analyzed for protection under
Procedure P2, and compared with the unovercoated control (i.e., coated particles or
ลูกกลมs).
Exemplary results of overcoating ผงที่ถูกเคลือบs containing 30% w/w HAIP 25 and Dritex S wax with 20%wt Neocryl XK82 are shown in รูป 5. Clear protection
with 20% โพลิเมอร์ coating can be observed.
Exemplary results of overcoating ผงที่ถูกเคลือบs with 40% w/w HAIP and Dritex S with various amounts of Neocryl XK-82 are shown in รูป 6. Clear
protection with 20% and 28% โพลิเมอร์ coating can be observed.
30 Samples in this example are prepared from ส่วนเคลือบ แบบฟลูอิดเบดwith an เอเควียส
emulsion of Neocryl XK-82. The results show the method provided in this example







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is also a major improvement in protecting release of active ingredient in water compared to existing สูตรผสมs.
Overcoating with ส่วนเคลือบ แบบฟลูอิดเบดprocess: Overcoating โพลิเมอร์ Neocryl
Xk-82 can overcoat Dritex S ลูกกลมs 1-2 times with 28% overcoating, but not at 14% 5 overcoating. However, Xk-82 does not overcoat polywax ลูกกลมs at all. Another
overcoating โพลิเมอร์, SBD (styrene butadiene) is not effective for overcoating
wax-coated particles. Results in Table 12 and รูป 7 show no effect of XK-82 of
SBD coating on polywax.