Bambu dapat tumbuh hampir di seluruh benua. Di Indonesia bambu dapat tumbuh mulai dari tanah yang paling gersang sampai paling banyak hujan. Indonesia berada di daerah tropis yang mempunyai kehangatan, kelembaban dan bahan organik yang tinggi di dalam tanah. Dengan kondisi tersebut, perkembangan organisme, khususnya organisme perusak bambu, sangat baik. Kerusakan bambu dapat disebabkan oleh faktor biologis dan non biologis, seperti cuaca. Apabila tidak dilakukan pengawetan, khususnya untuk pemakaian di ruang terbuka, kualitas bambu akan menurun oleh berbagai hal yang antara lain disebabkan keadaan alam sekitarnya. Oleh karena itu kajian tentang pengawetan dengan bahan kimia dan peluruhan bambu setelah pengawetan, diperlukan. Terkait dengan hal itu, tujuan dari penelitian ini adalah untuk mengetahui pengaruh interaksi faktor posisi batang, jenis bambu, bahan kimia, dan lama waktu peluruhan (leaching) pada sifat kekuatan dan keawetan bambu. Dalam penelitian ini jenis bambu yang diuji ada 3 macam, yaitu Petung, Wulung dan Legi. Kajian dilakukan dengan menggunakan bahan kimia campuran tembaga sulfat, natrium bichromat dan asam borat (CCB4: Copper Chrome Boric acid). Bambu yang telah diberi perlakuan (diisi bahan kimia) dipaparkan di dalam dan di luar ruangan. Pengujian dilakukan untuk mengamati sifat fisika (kadar air, berat jenis), kimia (kandungan lignin, holoselulose) dan kekuatan bambu (kuat lentur, tarik, tekan dan geser). Keawetan bambu diuji terhadap serangan rayap kayu kering. Pengujian dilakukan pada 3 (tiga) posisi bambu (pangkal, tengah dan ujung) dengan 3 (tiga) kali pengulangan, yang masing-masing diberi perlakuan yang berbeda. Standar yang digunakan adalah ASTM D 143-52 yang dimodifikasi dan ISO 22157-1 dan 2. Dari hasil pengujian ini dapat disimpulkan bahwa ada korelasi antara : a) jenis dan posisi batang bambu, b) konsentrasi bahan pengawet CCB4, c) lama waktu peluruhan, dan a) kekuatan, b) keawetan bambu, yang terpapar secara interior maupun eksterior. Ada perbedaan kekuatan dan keawetan antara bambu terpapar interior dan eksterior. Bambu mencapai kekuatan dan keawetan maksimum pada usia peluruhan 6 bulan dan setelah itu cenderung menurun. Pengawetan bambu dengan bahan CCB4 (kadar 5%-15%) mampu meningkatkan keawetan sampai dengan 55-75%, semakin tinggi kadar CCB4 tingkat keawetannya semakin meningkat, dan mengurangi jeda kekuatan antara interior dan eksterior. Jenis bambu Petung mempunyai kuat geser berkisar antara (7,6-8,1) MPa, lentur (120,88-138,25) MPa, tarik (215,56-247,4) MPa, tekan (99,86-120,23) MPa, dan mempunyai kekuatan lebih tinggi sekitar 10% dibanding jenis bambu Wulung maupun Legi. Posisi pangkal mempunyai kekuatan terendah, posisi tengah dan ujung berturut-turut lebih tinggi 10%, dan 15%.

Bamboo can grow in almost over the continents. In Indonesia, bamboo grows widely spread over the islands because bamboo can grow even in the driest land and in the most saturated area. Indonesia is in a tropical area with high temperature, high humidity, and a lot of organic matters. Under these conditions, the growth of the organism is accelerated, especially the ones which spoiled bamboo. The damage of bamboo can be caused by biological and non-biological factors, such as weather. If preservation is not applied for bamboo in open-space, the quality of bamboo will decrease due to many reasons such as the worse natural surroundings. Therefore, a study regarding preservation with chemical substances and the leaching of the chemical substances is needed. Related to the matter, the aims of this study are to know the interaction effect of the rod positions and the types of bamboo, chemical ingredients, and leaching time on the strength and durability of the bamboo. In this study, three types of bamboo were tested, which were Petung, Wulung, and Legi. The study was conducted by using a mixture of copper sulphate – sodium bichromat and boric acid (CCB4 : Copper Chrome Boric Acid). The treated bamboo specimens were then exposed both indoor and outdoor. The tests were carried out to investigate physical properties (moisture level, density), the chemical properties (lignin content, holloselulose), and the mechanical properties of bamboo (the flexural, the tensile, the compressive and the shear strengths). The bamboo’s durability was tested against termite attack. Each treatment was carried out on different parts of the bamboo (the bottom, the middle, and the top parts), with 3 (three) repetitions for every part of the bamboo. Modified ASTM D 143-52 and ISO 22157-1 and 2 were used as the standard of the tests. From the results, it can be concluded that there is a correlation amongst the type and the position of the bamboo rods, the concentration of preservation substance CCB4, the duration of leaching time, the strength and the durability of the bamboo that were exposed exteriorly and interiorly. There are different strength and durability amongst specimens that are interiorly and exteriorly exposed. Bamboo reaches its maximum strength and durability at 6 months of leaching time, after all it tends to decreases significantly with time. Bamboo’s preservation with CCB4 compound (5%-15%) is able to increase the durability, the higher the concentration of the CCB4, the higher the durability will be, and it reduces the strength gap of the interiorly and exteriorly specimens. Petung bamboos have shear, bending, tensile and compressive strengths ranges from 7.6 to 8.1 MPa; 120.88 to 138.25 MPa; 215.56 to 247.4 MPa; 99,86 to 120, 23 MPa respectively. In general Petung bamboos have higher strength of about 10% compared to Wulung or Legi bamboos. The bottom parts of bamboo shows the lowest strength, but the middle and the top ones are 10% and 15% higher respectively.

Kata Kunci : bambu, CCB4, peluruhan interior,eksterior, kekuatan, keawetan