wear off的問題，透過圖書和論文來找解法和答案更準確安心。 我們找到下列問答集和資訊懶人包

Fat Off, Fat on: On the Trials and Tribulations of a Fat Bitch Who Taught Me a Lot

為了解決wear off的問題，作者 這樣論述：

In this disarming and candid memoir, cultural critic Clarkisha Kent dismantles the oppressions faced by Black, queer, fat women in a society obsessed with heteronormativity.There was no easy way for Clarkisha Kent to navigate personal discovery and self-love. As a fat, dark-skinned immigrant facing

mental health and intergenerational trauma, at times Kent’s body appeared a cosmic punishment. In the face of homophobia, anti-Blackness, body dysmorphia, and respectability politics, the pursuit of ＂high self-esteem＂ seemed oxymoronic. Fat Off, Fat On is a humorous, at times tragic, memoir that fol

lows Kent on her journey realizing her body is a gift to be grown into, that sometimes family doesn’t always mean home, and how ill-fated bisexual romances could free her from gender essentialism. Perfect for readers of Keah Brown’s The Pretty One, Alida Nugent’s You Don’t Have to Like Me, and Steph

anie Yeboah’s Fattily Ever After, Kent’s debut is disarming and candid about her lived experience of intersectionality. It stresses the importance of addressing the violence scored upon our minds and our bodies, and how we might begin the difficult--but joyful--work of setting ourselves free. Clar

kisha Kent is a Nigerian American writer and critic. Her writing has been featured in outlets like Entertainment Weekly, Essence, The Root, BET, Paper, HuffPost, MTV News, Wear Your Voice Magazine, and more. She is also the creator of #TheKentTest, a media litmus test designed to evaluate the qualit

y of representation that exists for women of color in film and other media.

wear off進入發燒排行的影片

超疏水性在結露狀況下對氣冷式熱交換器性能的影響

為了解決wear off的問題，作者莫尼實 這樣論述：

濕空氣冷凝是熱管理系統中常見的過程，在冷凍空調循環中尤為重要，冷凝現象發生於當熱交換器，特別是蒸發器，在低於空氣露點的溫度下操作時。此現象將會導致鰭片側的冷凝液滴(膜)滯留(retention)與橋接(bridging),進而造成風機壓降與能耗的增加。本研究旨在開發一種超疏水熱交換器，通過其疏水特性，最大限度地減少冷凝水的滯留和橋接。本研究提出一種新型的超疏水性鰭片換熱器設計構想，採用傾斜鰭片排列以達到最小壓降和最大節能效果。本研究從熱傳與壓降性能的觀點切入，將新型超疏水性傾斜鰭片換熱器與其他換熱器作比較分析，分別為：超疏水水平鰭片換熱器、親水性傾斜鰭片換熱器、與親水性水平鰭片換熱器。此外，

本研究藉由改變不同的操作條件，如：進氣溫度、相對濕度和鰭片間距，對這四種換熱器進行性能測試。親水和超疏水換熱器中分別以膜狀冷凝和滴狀冷凝模式為主。由於其表面的高潤濕性，親水換熱器會有較大的液滴脫落直徑。相比之下，超疏水換熱器中發生的 Cassie-Baxter 液滴模式，促使了較小的液滴脫落直徑。本研究建立了一個力平衡模型來分析液滴脫落直徑，模型參數包括了表面張力、慣性力與重力對液滴的影響。本研究基於韋伯數(We)與邦德數(Bo)與液滴脫落直徑，引入了一個新的無因次參數( )，該無因次參數 可預測表面的凝結水脫落能力，在給定的鰭片間距下， 越小代表凝結水脫落能力越好。研究結果表明，滴狀冷凝的

超疏水換熱器在濕空氣下的冷凝熱傳性能相較膜狀冷凝的親水性換熱器並未有顯著的提升，此結果可歸因於非凝結性氣體效應。然而，在壓降方面，超疏水性換熱器與親水性換熱器相比，可帶來高達70%的壓降降低，大幅提升節能效果。壓降的降低歸因於聚結誘發的液滴跳躍現象，使得冷凝水連續脫落。

Four Ways to Wear a Dress

為了解決wear off的問題，作者Libby, Gillian 這樣論述：

Could not put this down! A relevant, sexy read! --ABBY JIMENEZ, New York Times bestselling authorGillian Libby brings you a bright, sexy, and hopeful story about friendship, self-discovery and acceptance, and fighting for your own happiness, even if it looks a little different than everyone else’

s.Millie Ward has been fired. Again. She’s tired of feeling like a failure, and she refuses to blame her ADHD the way her parents do every time she hits one of life’s speed bumps. This time, she’s going to let that speed bump actually slow her down, and jumps at the chance to visit her best friend?a

nd Instagram influencer?Quincy in California. And she wouldn’t mind if that invitation also involved getting closer with Quincy’s brother, Pete.Millie’s best friends Kate and Bree send her to Peacock Bay with the little black dress they share, giving her the confidence she needs to make the move. Bu

t Peacock Bay is full of mega influencers who have perfected the look of the surf lifestyle, and a minor misunderstanding has Millie joining their ranks. Can Millie and her magical dress convince Pete to face the Bay with her, or will Millie’s time in California be another misstep on her way to figu

ring out exactly who she is?Millie’s voice bursts off the page in this sparkling debut... You won’t want to put it down. --Suzanne Park, author of So We Meet AgainA smartly written story of friendship and self-discovery paired with a hefty dose of wit and charm. The perfect reminder to take risks an

d follow your heart. --Ann Marie Walker, author of Lucky Leap Day

以脲醛樹脂包覆改質聚丁二烯/環氧樹脂 之微顆粒作為耐磨劑

為了解決wear off的問題，作者陳綺雯 這樣論述：

本研究欲以脲醛樹脂微膠囊包覆環氧化聚丁二烯/環氧樹脂，作為耐磨劑與橡膠進行混練，其中環氧化聚丁二烯可作為橡膠與環氧樹脂之間的相容劑，因此本研究採用過氧甲酸法環氧化聚丁二烯(Ricon156)，合成了一系列具有不同環氧值的環氧化聚丁二烯(E-Ricon)，並利用丙酮-鹽酸法測定其環氧值，觀察過氧化氫添加量、甲酸添加量以及反應時間對環氧化的影響，由丙酮-鹽酸法測定結果得知，在添加 15 mL 50%過氧化氫、5 mL 甲酸的條件下，反應 5 hr 時會有最高的環氧值(E=10.8)。由 FTIR 分析結果得知，Ricon156 在 966 cm-1、910 cm-1、724 cm-1處具有反式

1,4-結構雙鍵(trans-1,4)、1,2-結構雙鍵(1,2-vinyl)、順式 1,4-結構雙鍵(cis1,4)的特徵峰，比例分別為 27.6% trans-1,4、53.8% 1,2-vinyl、18.6% cis-1,4。而改質後的 E-Ricon 在 966 cm-1處的 trans-1,4 特徵峰消失，而 831 cm-1處出現環氧基的特徵峰，由此可證本研究成功將聚丁二烯改質為環氧化聚丁二烯。由固化測試結果得知，3.0 g Epoxy 與 2.0 g E-Ricon，在添加 0.8 g 的固化劑(QE-340M 或 PETMP)以及 0.5 g 的催化劑 DMP-30 時的常溫固

化速率最快。本研究採用原位聚合法製備脲醛樹脂微膠囊，並利用 SEM 觀察攪拌速率、尿素/甲醛之莫耳比以及尿素/甲醛之添加量，對微膠囊形貌的影響，由分析結果得知，添加 7.5 g 尿素以及 21.5 g 甲醛(莫耳比 1：2)，在攪拌速率為 1000 rpm 的條件下製備的微膠囊形貌最完整，且由 Epoxy/E-Ricon 包覆性測試結果得知，Epoxy 3g/E-Ricon 3.0g 的條件下製備的微膠囊包覆的效果最佳。最後將包覆 Epoxy/ERicon 之脲醛樹脂微膠囊與橡膠進行摻混，由磨耗試驗結果得知，當添加 2.0 g 微膠囊時，橡膠/脲醛樹脂微膠囊摻混物會有最佳的耐磨性。